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Bibliographia Humboldtiana Index

Bibliographia Humboldtiana

III. Publications by Research Awardees

Physics

Akhmediev, Prof. Dr. Nail

Australian National University, Australia
Field of research: Optics
Host: Prof. Dr. Helmut R. Brand Universität Bayreuth
  • Sh. Amiranashvili, U. Bandelow, and N. Akhmediev: Dispersion of nonlinear group velocity determines shortest envelope solitons. In: Physical Review A. 84, 2011, p. 043834 [solitons nonlinear optics].

  • A. Chabchoub, N. P. Hoffmann, and N. Akhmediev: Rogue wave observation in a water wave tank. In: Physical Review Letters. 106, 2011, p. 204502 [rogue waves].

  • A. Chabchoub, N. P. Hoffmann, and N. Akhmediev: Observation of rogue wave holes in a water wave tank. In: Journal of Geophysical Research. 117, 2012, p. C00J02 [rogue waves].

  • A. Chabchoub, S. Neumann, N. P. Hoffmann, and N. Akhmediev: Spectral properties of the Peregrine soliton observed in a water wave tank. In: JOURNAL OF GEOPHYSICAL RESEARCH. 117, 2012, p. C00J03 [rogue waves].

  • U. Bandelow and Nail Akhmediev: Persistence of rogue waves in extended nonlinear Schrödinger equations: Integrable Sasa–Satsuma case. In: Physics Letters A. 376, 2012, p. 1558 - 1561 [rogue waves, exact solutions, Sasa–Satsuma equation].

  • A. Chabchoub, N. Hoffmann, M. Onorato and N. Akhmediev: Super RogueWaves: Observation of a Higher-Order Breather in Water Waves. In: Physical Review X. 2, 2012, p. 011015 - 1-6 [rogue waves, water tank, nonlinear phenomena].

  • A. Ankiewicz, N. Akhmediev and F. Lederer: Approach to first-order exact solutions of the Ablowitz-Ladik equation. In: Physical Review E. 83, 2011, p. 056602 - 1-6 [discrete system, Ablowitz-Ladik equation].

  • Nail Akhmediev, J. M. Soto-Crespo, H. R. Brand: Dissipative solitons with energy and matter flows: Fundamental building blocks for the world of living organisms. In: Physics Letters A. 377, 2013, p. 968 - 974 [Dissipative solitons Nerve pulses Living organisms].

  • A. Chabchoub, O. Kimmoun, H. Branger, N. Hoffmann, D. Proment, M. Onorato, and Nail Akhmediev: Experimental Observation of Dark Solitons on the Surface ofWater. In: Physical Review Letters. 110, 2013, p. 124101 - (1-5) [Soliton Water waves Nonlinear Schoedinger equation].

  • Sh. Amiranashvili, U. Bandelow and Nail Akhmediev: Few-cycle optical solitary waves in nonlinear dispersive media. In: Physical Review A. 87, 2013, p. 013805 - (1-8) [Soliton Ultra-short pulse ].

  • Adrian Ankiewicz, Jose M. Soto-Crespo, M. Amdadul Chowdhury and Nail Akhmediev: Rogue waves in optical fibers in presence of third-order dispersion, self-steepening, and self-frequency shift. In: Journal of Optical Society of America. 30, 2013, p. 87 - 94 [Rogue wave, optical fibre, third order dispersion self-steepening, self-frequency shift].

  • J. M. Soto-Crespo, A. Ankiewicz, N. Devine, and Nail Akhmediev: Modulation instability, Cherenkov radiation, and Fermi – Pasta – Ulam recurrence. In: Journal of Optical Society of America. 29, 2012, p. 1930 - 1936 [FPU recurrence, Akhmediev breather, Cherenkov radiation, modulation instability ].

  • U. Bandelow and Nail Akhmediev: Sasa-Satsuma equation: Soliton on a background and its limiting cases. In: Physical Review E. 86, 2012, p. 26606 - (1-8) [soliton, integrable system, Sasa-Satsuma equation, rogue wave].

  • D. J. Kedziora, A. Ankiewicz, N. Akhmediev: Triangular rogue wave cascades. In: Physical Review E. 86, 2012, p. 056602 - (1-9) [rogue wave, nonlinear Schroedinger equation, Darboux transformation].

  • D. J. Kedziora, A. Ankiewicz, N. Akhmediev: Triangular rogue wave cascades. In: Physical Review E. 86, 2012, p. 056602 - (1-9) [rogue wave, nonlinear Schroedinger equation, Darboux transformation].

  • A. Chabchoub, N. Hoffmann, M. Onorato, A. Slunyaev, A. Sergeeva, E. Pelinovsky, and N. Akhmediev: Observation of a hierarchy of up to fifth-order rogue waves in a water tank. In: Physical Review E. 86, 2012, p. 056601 - (1-6) [rogue wave, water waves, nonlinear Schroedinger equation].

  • A. Chabchoub, N. Akhmediev, and N. P. Hoffmann: Experimental study of spatiotemporally localized surface gravity water waves. In: Physical Review E. 86, 2012, p. 016311 - (1-7) [rogue waves, water waves, nonlinear Schroedinger equation].

  • A. Chabchoub, N. Akhmediev, and N. P. Hoffmann: Experimental study of spatiotemporally localized surface gravity water waves. In: Physical Review E. 86, 2012, p. 016311 - (1-7) [rogue waves, water waves, nonlinear Schroedinger equation].

  • A. Chabchoub, N. Hoffmann, M. Onorato, G. Genty, J. M. Dudley and Nail Akhmediev: Hydrodynamic Supercontinuum. In: Physical Review Letters. 111, 2013, p. 054104 - (1-5) [supercontinuum, soliton, water waves].

  • A. Slunyaev, E. Pelinovsky, A. Sergeeva, A. Chabchoub, N. Hoffmann, M. Onorato, and Nail Akhmediev: Super-rogue waves in simulations based on weakly nonlinear and fully nonlinear hydrodynamic equations. In: Physical Review E. 88, 2013, p. 012909 - (1-9) [Rogue wave, hydrodynamic equations].

  • U Bandelow and Nail Akhmediev: Solitons on a background, rogue waves, and classical soliton solutions of the Sasa–Satsuma equation. In: Journal of Optics. 15, 2013, p. 064006 - (1-10) [Sasa–Satsuma equation, solitons, solitons on a background, rogue waves, NLSE, rational solitons].

  • Orazio Descalzi, Nail Akhmediev and Helmut R Brand: Exploding dissipative solitons in reaction-diffusion systems. In: Physical Review E. 88, 2013, p. 042911 - (1-7) [exploding solitons, dissipative solitons, reaction-diffusion systems].

  • A. Chabchoub, N. Hoffmann, M. Onorato, G. Genty, J. M. Dudley and Nail Akhmediev: Hydrodynamic Supercontinuum. In: Physical Review Letters. 111, 2013, p. 054104 - (1-5) [supercontinuum, water waves].

  • David J. Kedziora, Adrian Ankiewicz and Nail Akhmediev: Classifying the hierarchy of nonlinear-Schr¨odinger-equation rogue-wave solutions. In: Physical Review E. 88, 2013, p. 013207 - (1-12) [rogue waves, nonlinear Schroedinger equation, higher order solutions].

  • A. Chabchoub and Nail Akhmediev: Observation of rogue wave triplets in water waves. In: Physics Letters A. 377, 2013, p. 2590 - 2593 [rogue waves, water waves, higher-order solutions].

  • N. Akhmediev and N. Devine: How Cherenkov radiative losses can improve optical frequency combs. In: Science. 351, 2016, p. 340 - 341 [Frequency comb].

  • A. Ankiewicz, D. J. Kedziora, A. Chowdury, U. Bandelow and N. Akhmediev: Infinite hierarchy of nonlinear Schroedinger equations and their solutions. In: Phys. Rev. E. 93, 2016, p. 012206 [nonlinear Schroedinger equation].

Andreev, Prof. Dr. Viacheslav Mikhailovich

Russian Academy of Sciences, Russian Federation
Field of research: Semiconductor physics
Host: Dr. Andreas Bett Fraunhofer-Institut für Solare Energiesysteme (ISE)
  • Zh.I.Alferov, V.M.Andreev, V.D.Rumyantsev: III-V solar cells and concentrator arrays. In: High-Efficient Low-Cost Photovoltaics. (Ed. V.Petrova-Koch, R.Hezel, A.Goetzberger) Springer Series in Optical Sciences, Vol. 140: Springer, 2009, p. 101 - 141 [Semiconductor heterostructures, solar cells, concentrator arrays].

  • V.M.Andreev, S.V.Sorokina, N.Kh.Timoshina, V.P.Khvostikov, M.Z.Shvarts : Solar cells based on gallium antimonide. In: Semiconductors. 43, 5, 2009, p. 668 - 671.

  • V.M.Andreev, V.V.Evstropov, V.S.Kalinovsky, V.M.Lantratov, V.P.Khvostikov: Current flow and potential efficiency of solar cells based on GaAs and GaSb p-n junctions. In: Semiconductors. 43; 5, 2009, p. 644 - 651.

  • A.S.Gudovskikh, N.A.Kalyuzhnyy, V.M.Lantratov, S.A.Mintairov, M.Z.Shvarts, V.M.Andreev : Properties of interfaces in GaInP solar cells. In: Semiconductors. 43; 10, 2009, p. 1363 - 1368.

  • V.M. Andreev, V.S. Kalinovsky, R.V. Levin, B.V. Pushniy, V. D. Rumyantsev: GaSb structures with quantum dots in space charge region. In: Proceedings of the 24th European PV Solar Energy Conference and Exhibition, 21-25 September 2009, Hamburg, Germany. 2009, p. 740 - 742 [Quantum Dots, Multi-junctions Solar Cell, GaSb].

  • V.P.Khvostikov, S.V.Sorokina, N.S.Potapovich, A.S.Vlasov, M.Z.Shvarts, N.Kh.Timoshina, V.M.Andreev : Powerful high efficiency GaSb TPV and PV cells. In: Proceedings of the 24th European PV Solar Energy Conference and Exhibition, 21-25 September 2009, Hamburg, Germany. 2009, p. 174 - 177 [Diffusion, GaSb, photovoltaic].

  • A.S. Vlasov, V.P. Khvostikov, E.P. Rakova, S.V. Sorokina, and V.M. Andreev : Photoluminescence characterization of Te-doped GaSb for TPV applications. In: Proceedings of the 24th European PV Solar Energy Conference and Exhibition, 21-25 September 2009, Hamburg, Germany. 2009, p. 310 - 312 [GaSb, photoluminescence, Czochralski, defects].

  • A.S.Vlasov, E.P.Rakova, V.P.Khvostikov, S.V.Sorokina, V.S.Kalinovsky, M.Z.Shvarts, V.M.Andreev: Native defect concentration in Czochralski-grown Te-doped GaSb by photoluminescence. In: Solar Energy Materials & Solar Cells. 94;6, 2010, p. 1113 - 1117 [GaSb; Thermophotovoltaics; Photoluminescence].

  • L.B.Karlina, A.S.Vlasov, M.M.Kulagina, E.P.Rakova, N.Kh.Timoshina, V.M.Andreev : Highly Efficient Photovoltaic Cells Based on In0.53Ga0.47As Alloys with Isovalent Doping. In: Semiconductors. 44;2, 2010, p. 228 - 232.

  • V.P.Khvostikov, S.V.Sorokina, N.S.Potapovich, O.A.Khvostikova, A.V.Malievskaya, A.S.Vlasov, M.Z.Shvarts, N.Kh.Timoshina, V.M.Andreev : Thermophotovoltaic Generators Based on Gallium Antimonide. In: Semiconductors. 44;2, 2010, p. 255 - 262.

  • A.S.Vlasov, V.P.Khvostikov, S.V.Sorokina, N.S.Potapovich, V.S.Kalinovskiy, E.P.Rakova, V.M.Andreev, A.V.Bobyl, G.F.Tereschenko : Gas-fired thermophotovoltaic generator based on metallic emitters and GaSb cells. In: Semiconductors. 44;9, 2010, p. 1244 - 1248.

  • S.A.Mintairov, V.M.Andreev, V.M.Emelyanov, N.A.Kalyuzhnyy, N.Kh.Timoshina, M.Z.Shvarts, V.M.Lantratov : Study of minority carrier diffusion lengths in photoactive layers of multijunction solar cells. In: Semiconductors. 44;8, 2010, p. 1084 - 1089.

  • V.M.Andreev, N.Y.Davidyuk, E.A.Ionova, P.V.Pokrovskii, V.D.Rumyantsev, N.A.Sadchikov : Parameter optimization of solar modules based on lens concentrators of radiation and cascade photovoltaic converters. In: Technical Physics. 55;2, 2010, p. 277 - 284.

  • V.M.Andreev, A.A.Soluyanov, M.Z.Shvarts : Development of Lens Concentration Systems with Secondary Optical Elements. In: Proceedings of the 6th International Conference on Concentrating Photovoltaic Systems, 6-11 April 2010, Freiburg, Germany. 2010, p. 105 - 108 [Fresnel Lens, Secondary Optical Element].

  • V.D. Rumyantsev, Yu.V. Ashcheulov, N.Yu. Davidyuk, E.A. Ionova, P.V. Pokrovskiy, N.A. Sadchikov, V.M. Andreev : CPV Modules Based On Lens Panels. In: Advances in Science and Technology. 74, 2010, p. 211 - 218 [III-V solar cell; Fresnel lens, Module design; Thermal regime; Cell characterization].

  • Kalyuzhnyy,NA; Gudovskikh,AS; Evstropov,VV; Lantratov,VM; Mintairov,SA; Timoshina,NK; Shvarts,MZ; Andreev,VM : Germanium subcells for multijunction GaInP/GaInAs/Ge solar cells. In: Semiconductors. 44;11, 2010, p. 1520 - 1528.

  • V.P.Khvostikov, A.S.Vlasov, S.V.Sorokina, N.S.Potapovich, N.Kh.Timoshina, M.Z.Shvarts, V.M.Andreev : High-efficiency (η = 39.6%, AM 1.5D) cascade of photoconverters in solar splitting systems. In: Semiconductors. 45;6, 2011, p. 792 - 797.

  • V.M.Andreev : Nanotechnology in solar energy. In: Russia and Germany. Scientific Humboldt Journal (in Russian). 1, 2011, p. 60 - 63.

  • A.A.Andreev, V.M.Andreev, V.S.Kalinovsky, P.V.Pokrovsky, E.I.Terukov : Evaluation of the Conversion Efficiency of Thin-Film Single-Junction (a-Si:H) and Tandem (μc + a-Si:H) Solar Cells by Analysis of the Experimental Dark and Load Current–Voltage (I–V) Characteristics. In: Semiconductors. 46;7, 2012, p. 929 - 936.

  • V.P.Khvostikov, S.V.Sorokina, O.A.Khvostikova, N.K.Timoshina, N.S.Potapovich, B.Y.Ber, D.Y.Kazantsev, V.M.Andreev : High-efficiency GaSb photocells. In: Semiconductors. 47;2, 2013, p. 307 - 313.

  • A.S.Vlasov, V.P.Khvostikov, L.B.Karlina, S.V.Sorokina, N.S.Potapovich, M.Z.Shvarts, N.K.Timoshina, V.M. Lantratov, S.A.Mintairov, N.A.Kalyuzhnyi, E.P.Marukhina, V.M.Andreev : Spectral-splitting concentrator photovoltaic modules based on AlGaAs/GaAs/GaSb and GaInP/InGaAs(P) solar cells. In: Technical Physics. 58;7, 2013, p. 1034 - 1038.

  • V.D.Rumyantsev, V.M.Andreev, A.V.Chekalin, N.Yu.Davidyuk, O.A.Im, E.V.Khazova, N.A. Sadchikov : Progress In Developing HCPV Modules Of SMALFOC-Design. In: Proc. of the 9th Int. Conf. on Concentrating Photovoltaics, 15-17 April 2013, Miyazaki, Japan. 2013, p. 185 - 188 [Solar cell; Fresnel lens; Heat sink; Lamination; Concentrator module].

  • V.M.Andreev, N.Y.Davidyuk, E.A.Ionova, V.D.Rumyantsev : Photovoltaic modules with cylindrical waveguides in a system for the secondary concentration of solar radiation. In: Technical Physics. 58;9, 2013, p. 1323 - 1328.

Balta Calleja, Prof. Dr. Francisco Jose

Consejo Superior de Investigaciones Cientificas, Spain
Field of research: Polymer physics
Host: Prof. Dr. Goerg Hannes Michler Martin-Luther-Universität Halle-Wittenberg
  • Francisco Jose Balta Calleja, G.-M. Kim, G. H. Michler, F. Ania: Temperature-dependence of polymorphism in electrospun nanofibres of PA6 and PA6/clay nanocomposite. In: Polymer. 48 (16), 2007, p. 4814 - 4823.

  • Francisco Jose Balta Calleja, Fernando Ania, Ines Puente Orench, Devang Khriwala, Anne Hiltner, Eric Baer, Stephan V. Roth: Ultra-small-angle X-ray Scattering Study od PET/PC Nanolayers relating to AFM results. In: Macromolecular Chemistry and Physics. 209, 2008, p. 1367 - 1373.

  • Francisco Jose Balta Calleja, M. Pieruccini, A. Flores, U. Nöchtel, G. Di Marco, N. Stribeck: The role of the amorphous phase in the recrystallization process of cold crystallized PET. In: European Physical Journal E. 27, 2008, p. 365 - 373.

  • Francisco Jose Balta Calleja, M. E. Cagiao, P. Buzin, H. R. Kicheldorf, S. S. Funari: Micromechanical behavoir of biodegradable polyesters relating to nanostructure. In: J. Appl. Polym. Sci.. 117, 2010, p. 2591 - 2596.

  • Francisco Jose Balta Calleja, R. Adhikari, S. K. Khatri, S. Adhikari, G. H. Michler: Microidentation Hardness of Nanostructured Thermoplasic Materials. In: Macormolekular Symposia. 290, 2010, p. 166 - 174.

  • Francisco Jose Balta Calleja, S. Bouhelal, M. E. Cagiao, D. Benachour, B. Djellouli, L. Rong, B. S. Hsiao: SAXS study of reversibly crosslinked isotactic polypropylene/clay Nanocomposites. In: J. Appl. Polym. Sci.. 117, 2010, p. 3262 - 3270.

  • Francisco Jose Balta Calleja, A. Flores, G. Di Marco, S. Sturniolo, M. Pieruccini: Recrystallization processes in cold-crystallized poly(ethylene terephthalate): Interplay between structure evolution anc conformational relaxation. In: Polymer. 52, 2011, p. 3155 - 3162.

  • Francisco Jose Balta Calleja, F. Ania, A. Flores, G. H. Michler, S. Scholtyssek, D. Khariwala, A. Hiltner, E. Baer, L. Rong, B. S. Hsiao: Nanostructure and crystallization phenomena in multilayered films of alternating iPP and PA6 semicrystalline polymers. In: European Polymer Journal. 48 (1), 2012, p. 86 - 96.

  • Francisco Jose Balta Calleja, G. H. Michler: Nano- and Micromechanics of Polymers: Structure modification and improvement of Properties. München: Carl Hanser, 2012, 563 pp.

Baumgarte, Prof. Dr. Thomas W.

Bowdoin College, United States of America
Field of research: Theoretical Physics
Host: Dr. Ewald Müller Max-Planck-Institut für Astrophysik
  • Thomas W. Baumgarte, Pedro J. Montero, Isabel Cordero-Carrion, Ewald Müller: Numerical relativity in spherical polar coordinates: evolution calculations with the BSSN formulation. In: Physical Review D. 87, 2013, p. 044026/1 - 14 [general relativity, numerical relativity, gravitational radiation, black holes].

  • Andreas Bauswein, Thomas W. Baumgarte, Hans-Thomas Janka: Prompt Merger Collapse and the Maximum Mass of Neutron Stars. In: Phys. Rev. Lett.. 111, 2013, p. 1311101/1 - 5 [Gravitational-wave astrophysics, Relativistic stars: structure stability and oscillations, Equations of state of neutron-star matter, Neutron stars].

  • David Hilditch, Thomas W. Baumgarte, Andreas Weyhausen, Tim Dietrich, Bernd Brügmann, Pedro J. Montero, Ewald Müller: Collapse of nonlinear gravitational waves in moving-puncture coordinates. In: Phys. Rev. D. 88, 2013, p. 103009/1 - 12 [General relativity, black holes, gravitational waves, critical collapse].

  • Pedro J. Montero, Thomas W. Baumgarte, Ewald Müller: General relativistic hydrodynamics in curvilinear coordinates. In: Physical Review D. 89, 2014, p. 084043/1 - 15 [General Relativity, hydrodynamics].

  • Nicolas Sanchis-Gual, Pedro J. Montero, José A. Font, Ewald Müller, Thomas W. Baumgarte: Fully covariant and conformal formulation of the Z4 system in a reference-metric approach: Comparison with the BSSN formulation in spherical symmetry . In: Physical Review D. 89, 2014, p. 104033/1 - 14 [General relativity, Numerical relativity].

Berg, Prof. Dr. Bernd Albert

Florida State University, United States of America
Field of research: Theoretical Physics
Host: Prof. Dr. Wolfhard Janke Universität Leipzig
  • Chizuru Muguruma, Yuko Okamoto, and Bernd Albert Berg : Thermodynamics of two ice models in three dimensions. In: Phys. Rev. E. 78, 2008, p. 041113 - 6 pages [Biophysics, statistical physics].

  • Alexei Bazavov and Bernd Albert Berg: Program package for multicanonical simulations of U(1) lattice gauge theory. In: Comp. Phys. Commun.. 190, 2009, p. 2339 - 2347 [Lattice gauge theory, Markov Chain Monte Carlo, multicanonical].

  • Bernd Albert Berg, Alexei Bazavov and Adrian Dumitru: Minkowskian dynamics of a Polykov loop model under a heating quench. In: Proc. Science. LAT2008, 2009, p. 195 - 7 pages [Particle physics, deconfining phase transition, lattice gauge theory, Polyakov loops ].

  • Bernd Albert Berg, Alexei Bazavov and Hao Wu: Deconfining phase transition on a double-layered torus. In: Proc. Science. LAT2009, 2010, p. 164 - 7 pages [Particle physics, deconfining phase transitions, cold boundaries, lattice gauge theory].

  • Alexey Bazavov, Bernd Albert Berg and Huan-Xiang Zhou: Applications of biased Metropolis algorithms: From protons to proteins. In: Math. and Comp. Sim.. 80, 2010, p. 1056 - 1065 [Biophysics, statistical physics, particle physics, Metropolis algorithm, biased updating].

Bergmann, Prof. Dr. Klaas

Technische Universität Kaiserslautern, Germany
Field of research: Nuclear physics, atomic physics, molecular physics

  • Vladimir V. Ogurtsov, Vladimir M. Khodakovskyy, Leonid P. Yatsenko, Bruce W. Shore, Gerd Bonnet, and Klaas Bergmann : An all-fiber frequency-shifted feedback laser for optical ranging; signal variation with distance. In: Optics Communications. 281, 2008, p. 1679 - 1685.

  • Frank Vewinger, Manfred Heinz, Ulrich Schneider, Christian Barthel, and Klaas Bergmann : Amplitude and phase control of a coherent superposition of degenerate states. II. Experiment. In: Physical Review A. 75, 043407, 2007, p. 1 - 9.

  • E.S. Kyoseva, N.V. Vitanov and B.W. Shore: Physical realization of coupled Hilbert-space mirrors for quantum-state engineering. In: Journal of Modern Optics . 54, 2007, p. 2237 - 2257.

Bocquet, Prof. Dr. Lyderic

Ecole Normale Superieure de Paris, France
Field of research: Statistical physics and thermodynamics
Host: Prof. Dr. Roland Netz Technische Universität München
  • Julie Goyon, Annie Colin, Guillaume Ovarlez, Armand Ajdari, Lyderic Bocquet: Spatial Cooperativity in Soft Glassy Flows. In: Nature. 454, 2008, p. 84 - 87 [physics of soft condensed matter; flows; complex materials].

Branco, Prof. Dr. Gustavo

Universidade Tecnica de Lisboa, Portugal
Field of research: Particle physics
Host: Prof. Dr. Andrzej J. Buras Technische Universität München
  • Gustavo Branco Gautam Bhattacharyya Joaquim Silva-Marcos: CP Violation and Flavour Mixings in Orbifolds Published in Phys.Rev.D77:011901,2008. e-Print: arXiv:0709.1848 [hep-ph]. In: Phys. Rev.D. D77, 2008, [Particle Physics, Fermion Masses, CP violation].

  • Gustavo Branco Gautam Bhattacharyya Joaquim Silva-Marcos: CP Violation and Flavour Mixings in Orbifolds Published in Phys.Rev.D77:011901,2008. e-Print: arXiv:0709.1848 [hep-ph]. In: Phys. Rev.D. D77, 2008, [Particle Physics, Fermion Masses, CP violation].

Brouwer, Prof. Dr. Piet Wibertus

Freie Universität Berlin, Germany
Field of research: Theoretical solid state / condensed matter physics
Host: Prof. Dr. Peter-André Alt Freie Universität Berlin
  • Piet W. Brouwer, Saar Rahav: Universal parametric correlations in the classical limit of quantum transport. In: Physical Review B. 75, 2007, p. 201303(R) [mesoscopic physics, quantum chaos].

  • Piet W. Brouwer: Semiclassical theory of the Ehrenfest-time dependence of quantum transport. In: Physical Review B. 76, 2007, p. 165313-1 - 165313-18 [mesoscopic physics quantum chaos].

  • Piet W. Brouwer, Joern N. Kupferschmidt: Interaction Correction to the Conductance of a Ballistic Conductor. In: Physical Review Letters. 100, 2008, p. 246805-1 - 246805-4 [mesoscopic physics; quantum chaos].

  • E. Rossi, J.H. Bardarson, P.W. Brouwer, and S. Das Sarma: Signatures of Klein tunneling in disordered graphene p-n-p junctions. In: Phys. Rev. B. 81, 2010, p. 121408-1 - 121408-4.

  • Dganit Meidan, Tobias Micklitz, and Piet W. Brouwer: Optimal topological spin pump. In: Phys. Rev. B . 82, 2010, p. 161303-1 - 161303-4.

  • J.H. Bardarson, P.W. Brouwer, and J.E. Moore: Aharonov-Bohm oscillations in disordered topological insulator nanowires. In: Phys. Rev. Lett.. 105, 2010, p. 156803-1 - 156803-4.

  • Jeroen Danon, Piet .W. Brouwer: Non-Gaussian fluctuations of mesoscopic persistent currents. In: Phys. Rev. Lett. 105, 2010, p. 136803-1 - 136803-4.

  • J.N. Kupferschmidt and P.W. Brouwer: Andreev reflection at half-metal-superconductor interfaces with non-uniform magnetization. In: Phys. Rev. B. 83, 2011, p. 014512-1 - 014512-14.

  • Mathias Duckheim and Piet W. Brouwer: Andreev reflection from non-centrosymmetric superconductors and Majorana bound state generation in half-metallic ferromagnets. In: Phys. Rev. B. 83, 2011, p. 054513-1 - 054513-13.

  • P. W. Brouwer, M. Duckheim, A. Romito, and F. von Oppen: Topological superconducting phases in disordered quantum wires with strong spin-orbit coupling. In: Phys. Rev. B. 84, 2011, p. 144526-1 - 144526-6.

  • P.W. Brouwer, M. Duckheim, A. Romito, and F. von Oppen: Probability distribution of Majorana end-state energies in disordered wires. In: Phys. Rev. Lett.. 107, 2011, p. 196804-1 - 196804-4.

  • D. Meidan, T. Micklitz, and P.W. Brouwer: Topological classification of interaction-driven spin pumps. In: Phys. Rev. B. 84, 2011, p. 075325-1 - 075325-5.

  • M. Schneider and P.W. Brouwer: Resonant scattering in graphene with a gate-defined chaotic quantum dot. In: Phys. Rev. B . 84, 2011, p. 115440-1 - 115440-10.

  • D. Meidan, T. Micklitz, and P.W. Brouwer: Topological classification of adiabatic processes. In: Phys. Rev. B . 84, 2011, p. 195410-1 - 195410-4.

  • J. Danon and P.W. Brouwer: Dephasing in ferromagnetic nanowires: The role of spin waves. In: Phys. Rev. B. 84, 2011, p. 224433-1 - 224433-11.

  • M.-T. Rieder, G. Kells, M. Duckheim, D. Meidan, P.W. Brouwer: Endstates in multichannel spinless p-wave superconducting wires. In: Phys. Rev. B. 86, 2012, p. 125423-1 - 125423-10.

  • F. Pientka, G. Kells, A. Romito, P.W. Brouwer, F. von Oppen: Enhanced zero-bias Majorana peak in disordered multi-subband quantum wires. In: Phys. Rev. Lett.. 109, 2012, p. 227006-1 - 227006-5.

  • P.W. Brouwer: Enter the majorana fermion. In: Science . 336, 2012, p. 989 - 990.

  • P.G. Silvestrov, P.W. Brouwer, E.G. Mishchenko: Spin and charge structure of the surface States in topological insulators. In: Phys. Rev. B. 86, 2012, p. 075302-1 - 075302-8.

  • F.B. Wilken and P.W. Brouwer: Impurity-assisted Andreev reflection at a spin-active half-metal-superconductor interface. In: Phys. Rev. . 85, 2012, p. 134531-1 - 134531-10.

  • G. Kells, D. Meidan and P.W. Brouwer: Low-energy sub-gap states in multi-channel p-wave superconducting wires. In: Phys. Rev. B. 85, 2012, p. 060507-1 - 060507-6.

  • G. Kells, D. Meidan, P.W. Brouwer: Near-zero-energy end states in topologically trivial spin-orbit coupled superconducting nanowires with a smooth confinement. In: Phys. Rev. B . 86, 2012, p. 100503-1 - 100503-5.

  • A. Ricottone, J. Danon, & P.W. Brouwer : Spin-wave-induced corrections to the electronic density of states in metallic ferromagnets. In: New Journal of Physics. 15, 2013, p. 123036.

  • M. Breitkreiz, & P.W. Brouwer: Semiclassical theory of speckle correlations. In: Phys. Rev. E. 88, 2013, p. 062905.

  • C.F. Hermanns, M. Bernien, A. Krüger, C. Schmidt, S.T. Wasserroth, G. Ahmadi, B.W. Heinrich, M. Schneider, P.W. Brouwer, K.J. Franke, E. Weschke & W. Kuch: Magnetic Coupling of Gd_3 N@C_80 Endohedral Fullerenes to a Substrate. In: Phys. Rev. Lett.. 111, 2013, p. 167203.

  • S.M. Frolov, J. Danon, S. Nadj-Perge, K. Zuo, J.W.W. van Tilburg, V.S. Pribiag, J.W.G. van den Berg, E.P.A.M. Bakkers, & L.P. Kouwenhoven : Suppression of Zeeman Gradients by Nuclear Polarization in Double Quantum Dots. In: Phys. Rev. Lett.. 109, 2012, p. 236805-1 - 236805-5.

  • M. Trescher, & E.J. Bergholtz: Flat bands with higher Chern number in pyrochlore slabs. In: Phys. Rev. B. 86, 2012, p. 241111-1 - 241111-5.

  • O. Abah, J. Roßnagel, G. Jacob, S. Deffner, F. Schmidt-Kaler, K. Singer, and E. Lutz: Single-Ion Heat Engine at Maximum Power. In: Phys. Rev. Lett.. 109, 2012, p. 203006-1 - 203006-6.

  • Z. Liu, E.J. Bergholtz, H. Fan, and A.M. Läuchli: Fractional Chern Insulators in Topological Flat Bands with Higher Chern Number. In: Phys. Rev. Lett.. 109, 2012, p. 186805-1 - 186805-5.

  • M. Nakamura, Z. Wang, and E.J. Bergholtz: Exactly Solvable Fermion Chain Describing a ν=1/3 Fractional Quantum Hall State. In: Phys. Rev. Lett.. 109, 2012, p. 016401-1 - 016401-5.

  • A. Dechant and E. Lutz: Anomalous Spatial Diffusion and Multifractality in Optical Lattices. In: Phys. Rev. Lett.. 108, 2012, p. 230601-1 - 230601-5.

  • A. Dechant, E. Lutz, D.A. Kessler, and E. Barkai: Superaging correlation function and ergodicity breaking for Brownian motion in logarithmic potentials. In: Phys. Rev. E. 85, 2012, p. 051124-1 - 051124-14.

  • K.S. Tikhonov, G. Schwiete, and A.M. Finkel’stein: Fluctuation conductivity in disordered superconducting films. In: Phys. Rev. B. 85, 2012, p. 174527-1 - 174527-14.

  • E. Kajari, A. Wolf, E. Lutz, and G. Morigi: Statistical mechanics of entanglement mediated by a thermal reservoir. In: Phys. Rev. A . 85, 2012, p. 042318-1 - 042318-16.

  • E. Wikberg, J. Larson, E.J. Bergholtz, and A. Karlhede: Fractional domain walls from onsite softening in dipolar bosons. In: Phys. Rev. A. 85, 2012, p. 033607-1 - 033607-6.

  • Z. Liu, E.J. Bergholtz, H. Fan, and A.M. Läuchli: Edge-mode combinations in the entanglement spectra of non-Abelian fractional quantum Hall states on the torus. In: Phys. Rev. B. 85, 2012, p. 045119-1 - 045119-13.

  • M. Schneider, G. Schwiete, and P.W. Brouwer: Semiclassical theory of the interaction correction to the conductance of antidot arrays. In: Phys. Rev. B. 87, 2013, p. 195406-1 - 195406-17.

  • A.M. Läuchli, Z. Liu, E.J. Bergholtz, and R. Moessner: Hierarchy of fractional Chern insulators and competing compressible states. In: Phys. Rev. Lett.. 111, 2013, p. 126802-1 - 126802-5.

  • G. Haack, M. Moskalets, and M. Büttiker: Glauber coherence of single-electron sources. In: Phys. Rev. B. 87, 2013, p. 201302-1 - 201302-5.

  • L.G.G.V. Dias da Silva, E. Vernek, K. Ingersent, N.P. Sandler and S.E. Ulloa: Spin-polarized conductance in double quantum dots: Interplay of Kondo, Zeeman and interference effects. In: Phys. Rev. B. 87, 2013, p. 205313-1 - 205313-11.

  • E.J. Bergholtz and Z. Liu: Topological Flat Band Models and Fractional Chern Insulators. In: Int. J. Mod. Phys.. 27, 2013, p. 1330017.

  • K.A. Madsen, E.J. Bergholtz, and P.W. Brouwer: Topological equivalence of crystal and quasicrystal band structures. In: Phys. Rev. B. 88, 2013, p. 125118-1 - 125118-5.

  • Z. Liu, D.L. Kovrizhin and E.J. Bergholtz: Bulk-edge correspondence in fractional Chern insulators. In: Phys. Rev. B. 88, 2013, p. 081106-1 - 081106-5.

  • Z. Liu and E.J. Bergholtz: From fractional Chern insulators to Abelian and non-Abelian fractional quantum Hall states. In: Phys. Rev. B. 87, 2013, p. 035306-1 - 035306-12.

  • M. Moskalets, G. Haack, and M. Büttiker: Single-electron source: Adiabatic versus nonadiabatic emission. In: Phys. Rev. B. 87, 2013, p. 125429-1 - 125429-17.

  • J. Heinl, M. Schneider, P.W. Brouwer: Interplay of Aharonov-Bohm and Berry phases in gate-defined graphene quantum dots. In: Phys. Rev. B. 87, 2013, p. 245426-1 - 245426-7.

  • A. Inhofer and D. Bercioux: Proposal for an on-demand source of polarized electrons into the edges of a topological insulator. In: Phys. Rev. B. 88, 2013, p. 235412-1 - 235412-9.

  • L. Lenz, D. F. Urban, and D. Bercioux: Rashba spin-orbit interaction in graphene armchair nanoribbons. In: Eur. Phys. J. B. 86, 2013, p. 502-1 - 502-9.

  • M.-T. Rieder, P. W. Brouwer, I. Adagideli: Reentrant topological phase transitions in a disordered spinless superconducting wire. In: Phys. Rev. B. 88, 2013, p. 060509-1 - 060509-4.

  • G. Schwiete, A.M. Finkel’stein: Kinetics of the disordered Bose gas with collisions. In: Phys. Rev. A. 88, 2013, p. 053611-1 - 053611-6.

  • G. Schwiete, A.M. Finkel’stein: Effective theory for the propagation of a wave packet in a disordered and nonlinear medium. In: Phys. Rev. A. 87, 2013, p. 043636-1 - 043636-13.

  • B. Tarasinski and G. Schwiete: Fluctuation conductivity of disordered superconductors in magnetic fields. In: Phys. Rev. B. 88, 2013, p. 014518-1 - 014518-17.

  • D. Faria, A. Latge, S.E. Ulloa and N. Sandler: Currents and pseudomagnetic fields in strained graphene rings. In: Phys. Rev. B. 87, 2013, p. 241403-1 - 241403-5.

  • T. Iadecola, D. Campbell, C. Chamon, C.-Y. Hou, R. Jackiw, S.-Y. Pi, and S. Viola Kusminskiy: Materials Design from Nonequilibrium Steady States: Driven Graphene as a Tunable Semiconductor with Topological Properties. In: Phys. Rev. Lett.. 110, 2013, p. 176603-1 - 176603-5.

  • G. Schwiete, A. M. Finkel’stein: Thermal Transport in the Disordered Fermi Liquid. In: Phys. Rev. B. 90, 2014, p. 060201-1 - 060201-5.

  • D.Meidan, A. Romito, and P.W. Brouwer: A scattering matrix formulation of the topological index of interacting fermions in one-dimensional superconductors. In: Phys. Rev. Lett.. 113, 2014, p. 057003-1 - 057003-5.

  • G. Schwiete, A. M. Finkel’stein: Keldysh approach to the renormalization group analysis of the disordered electron liquid. In: Phys. Rev. B. 89, 2014, p. 075437-1 - 075437-26.

  • P.G. Silvestrov and O. Entin-Wohlman: Wigner crystal of a two-dimensional electron gas with a strong spin-orbit interaction. In: Phys. Rev. B. 89, 2014, p. 155103-1 - 155103-7.

  • M. Rebello Sousa Dias, V. Lopez-Richard, G.E. Marques and S.E. Ulloa: Spin filtering in nanowire directional coupler. In: Europhys. Lett.. 106, 2014, p. 17002-1 - 17002-5.

  • M.M. Asmar and S.E. Ulloa: Spin-orbit interaction and isotropic electronic transport in graphene. In: Phys. Rev. Lett.. 112, 2014, p. 136602-1 - 136602-5.

  • D. Mastrogiuseppe, A. Wong, K. Ingersent, S.E. Ulloa and N.P. Sandler: Quantum phase transitions into Kondo states in bilayer graphene. In: Phys. Rev. B. 89, 2014, p. 081101-1 - 081101-5.

  • G. Kells, V. Lahtinen, and J. Vala: Kitaev spin models from topological nanowire networks. In: Phys. Rev. B. 89, 2014, p. 075122-1 - 075122-15.

  • B. Sbierski and P.W. Brouwer: Z2 phase diagram of three-dimensional disordered topological insulator via scattering matrix approach. In: Phys. Rev. B. 89, 2014, p. 155311-1 - 155311-9.

  • B. Sbierski, G. Pohl, E.J. Bergholtz, and P.W. Brouwer: Quantum transport of disordered Weyl semimetals at the nodal point. In: Phys. Rev. Lett.. 113, 2014, p. 026602-1 - 026602-5.

  • M. Schneider and P.W. Brouwer: Density of states as a probe of electrostatic confinement in graphene. In: Phys. Rev. B. 89, 2014, p. 205437-1 - 205437-9.

  • M. Schneider and P.W. Brouwer: Quantum corrections to transport in graphene: a trajectory-based semiclassical analysis. In: New J. Phys.. 16, 2014, p. 073015-1 - 073015-33.

  • M.Marciani, P.W. Brouwer, and C.W.J. Beenakker: Time-delay matrix, midgap spectral peak, and thermopower of an Andreev billiard. In: Phys. Rev. B. 90, 2014, p. 045403-1 - 045403-12.

  • J. Danon, A. Ricottone, P.W. Brouwer: Spin-wave-induced correction to the conductivity of ferromagnets. In: Phys. Rev. B. 90, 2014, p. 024405-1 - 024405-8.

  • M.-T. Rieder, T. Micklitz, A. Levchenko, K. A. Matveev: Interaction-induced backscattering in short quantum wires. In: Phys. Rev. B. 90, 2014, p. 165405-1 - 165405-8.

  • M.-T. Rieder and P.W. Brouwer: Density of states at disorder-induced phase transitions in a multichannel Majorana wire. In: Phys. Rev. B. 90, 2014, p. 205404-1 - 205404-5.

  • M.-T. Rieder, A. Levchenko, and T. Micklitz: Brownian scattering of a spinon in a Luttinger liquid. In: Phys. Rev. B. 90, 2014, p. 245434-1 - 245434-5.

  • G. Schwiete and A. M. Finkel’stein: Renormalization group analysis of thermal transport in the disordered Fermi liquid. In: Phys. Rev. B. 90, 2014, p. 155441-1 - 155441-28.

  • G. Haack, M. Albert, C. Flindt: Distributions of electron waiting times in quantum-coherent conductors. In: Phys. Rev. B. 90, 2014, p. 205429-1 - 205429-13.

  • C. Meyer zu Rheda, G. Haack, and A. Romito: On-demand maximally entangled states with a parity meter and continuous feedback. In: Phys. Rev. B. 90, 2014, p. 155438-1 - 155438-8.

  • M. Filippone, C.P. Moca, G. Zarand, C. Mora: The Kondo Temperature of SU(4) Symmetric Quantum Dots. In: Phys. Rev. B. 90, 2014, p. 121406-1 - 121406-5.

  • D. Bercioux and P. Lucignano: Quantum transport in Rashba spin-orbit materials: A review. In: Rep. Progr. Phys. . 78, 2015, p. 106001-2 - 106001-31.

  • P.W. Brouwer and J. Danon: Semiclassical theory of persistent current fluctuations in ballistic chaotic rings. In: Physica E. 74, 2015, p. 644 - 650.

  • M. Hering, M. Schneider, and P.W. Brouwer: Electronic transport in graphene with particlehole- asymmetric disorder. In: Phys. Rev. B. 92, 2015, p. 075415-1 - 075415-8.

Buividovich, Dr. Pavel

Universität Regensburg, Germany
Field of research: Theoretical Physics
Host: Prof. Dr. Andreas Schäfer Universität Regensburg
  • Pavel Buividovich, Mikhail Polikarpov: Monte-Carlo study of the electron transport properties of monolayer graphene within the tight-binding model. In: Physical Review B. 86, 2012, p. 245117 [electron transport graphene lattice simulation Hybrid Monte-Carlo chiral symmetry spontaneous breaking].

  • Viktor Braguta, Pavel Buividovich, Maxim Chernodub, Andrei Kotov, Mikhail Polikarpov: Electromagnetic superconductivity of vacuum induced by strong magnetic field: numerical evidence in lattice gauge theory. In: Physics Letters B. 718, 2012, p. 667 - 671 [superconductivity QCD magnetic field heavy-ion collision lattice simulation].

  • Pavel Buividovich, Mikhail Polikarpov, Oleg Teryaev: Lattice studies of magnetic phenomena in heavy-ion collisions. In: Strongly interacting matter in magnetic fields. (Ed. Dmitry Kharzeev, Karl Landsteiner, Andreas Schmitt, Ho-Ung Yee) Heidelberg: Springer, 2013, p. 1 - 10 [QCD lattice simulation magnetic field quark gluon plasma heavy ion collision].

Chin, Prof. Dr. See Leang

, Canada
Field of research: Laser physics, laser spectroscopy
Host: Prof. Dr. Herbert Walther Max-Planck-Institut für Quantenoptik (MPQ)
  • See Leang Chin: Femtosecond laser filamentation. New York: Springer, 2010, 130 pp. [intense femtosecond laser, filamentation, self-focusing, remote sensing, ultrafast birefringence, super-excited states, filamentation nonlinear optics].

Cleymans, Prof. Dr. Jean Willy Andre

University of Cape Town, South Africa
Field of research: Heavy ion physics
Host: Prof. Dr. Helmut Satz Universität Bielefeld
  • I. Kraus, J. Cleymans, H. Oeschler, K. Redlich and S. Wheaton : Chemical Equilibrium in Collisions of Small Systems. . In: Physical Review C . 76, 2007, p. 064903 [Relativistic Heavy Ion Collisions; Thermal Model].

Creutz, Dr. Michael

Brookhaven National Laboratory, United States of America
Field of research: Particle physics
Host: Prof. Dr. Hartmut Wittig Johannes Gutenberg-Universität Mainz
  • Michael Creutz: Anomalies and discrete chiral symmetries. In: Proceedings of Science PoS(QCD-TNT09)008. 2009, [Elementary particle theory, chiral symmetry, lattice gauge theory].

  • Stefano Capitani, Michael Creutz, Johannes Weber, Hartmut Wittig: Renormalization of minimally doubled fermions. In: http://arxiv.org/abs/1006.2009 Submitted to Journal of High Energy Physics. 2010, [Elementary particle physics, lattice gauge theory, chiral symmetry].

Demir, Prof. Dr. Durmus Ali

Izmir Institute of Technology, Turkey
Field of research: High energy physics
Host: Prof. Dr. Ahmed Ali Deutsches Elektronen-Synchrotron (DESY) Hamburg
  • Durmus Ali Demir, Lisa Everett, Paul Langacker: Dirac Neutrino Masses from Generalized Supersymmetry Breaking . In: Physical Review Letters. 100, 2008, p. 091804 [Neutrino Masses, Supersymmetry Breaking, Extra Gauge Symmetries].

Doi, Prof. Dr. Masao

Beihang University (BUAA), People's Republic of China
Field of research: Polymer physics
Host: Prof. Dr. Kurt Kremer Max-Planck-Institut für Polymerforschung
  • Masao Doi: Soft Matter Physics. Oxford University Press, 2013, 257 pp.

Erukhimovich, Prof. Dr. Igor

Moscow M.V. Lomonosov State University, Russian Federation
Field of research: Polymer physics
Host: Prof. Dr. Marcus Müller Georg-August-Universität Göttingen
  • Igor Erukhimovich, Panagiotis Theodorakis, Wolfgang Paul and Kurt Binder: Mesophase formation in two-component cylindrical bottlebrush polymers. In: THE JOURNAL OF CHEMICAL PHYSICS . 134, 2011, p. 054906-1 - 054906-22.

Gasser, Prof. Dr. Jürg

Universität Bern, Switzerland
Field of research: Theoretical Physics
Host: Prof. Dr. Ulf-Gerrit Meißner Rheinische Friedrich-Wilhelms-Universität Bonn
  • J. Gasser, B. Kubis and A. Rusetsky: Cusps in K->3 pi decays: a theoretical framework. In: Nucl. Phys. B850, 2011, p. 96 - 147 [Chiral symmetries, General properties of QCD, Chiral Lagrangians,Meson–meson interactions].

  • J. Gasser: On the history of pion-pion scattering. In: PoS(EFT09). 029, 2009, p. 1 - 15 [Meson-meson interactions, chiral perturbation theory].

  • J. Gasser, V.E. Lyubovitskij and A. Rusetsky: Hadronic Atoms. In: Ann. Rev. Nucl. Part. Sci. 59, 2009, p. 169 - 190 [QCD, QED, chiral perturbation theory, DGBT formula, non-relativistic effective lagrangians, scattering lengths].

  • C. Colangelo, J. Gasser and A. Rusetsky: Isospin breaking in K_l4 decays. In: Eur. Phys. J. C59, 2009, p. 777 - 793 [K_l4 decays, isospin breaking, pion-pion scattering, chiral symmetries].

  • M. Bissegger, A. Fuhrer, J. Gasser, B. Kubis and A. Rusetsky: Cusps in K_L -> 3 pi decays. In: Prog. Part. Nucl. Phys. 61, 2008, p. 178 - 179 [Meson-meson interactions, chiral symmetries].

  • M. Bissegger, A. Fuhrer, J. Gasser, B. Kubis and A. Rusetsky: Radiative corrections in K-> 3 pi decays. In: Nucl. Phys. B806, 2009, p. 178 - 223 [Chiral symmetries, decays of K-mesons, electromagnetic corrections to strong- and weak-interaction processes, meson-meson interactions].

  • J. Gasser, V.E. Lyubovitskij and A. Rusetsky: Hadronic atoms in QCD+QED. In: Phys. Rept. 456, 2008, p. 167 - 251 [Hadronic atoms, QCD, QED, chiral perturbation theory, non–relativistic effective Lagrangians ].

  • M. Bissegger, A. Fuhrer, J.Gasser, B. Kubis and A. Rusetsky: Cusps in K_L -> 3 pi decays. In: Phys. Lett. B659, 2008, p. 576 - 584 [Chiral symmetries, analytic properties of the S–matrix, decays of K–mesons, meson–meson interactions ].

  • J. Gasser: Theoretical progress on cusp effect and K_l4 decays. In: PoS(KAON). 033, 2008, p. 1 - 10 [cusp effect, chiral symmetry, scattering lengths, meson-meson interactions].

  • B. Kubis, E.H. Muller, J. Gasser and M. Schmid: Aspects of radiative K+(e3) decays. In: Eur. Phys. J. C50, 2007, p. 557 - 571 [Radiative semileptonic decays of K mesons, chiral symmetries, chiral Lagrangians].

Gibbs, Prof. Dr. Hyatt M.

University of Arizona, United States of America
Field of research: Semiconductor physics
Host: Prof. Dr. Dagmar Gerthsen Karlsruher Institut für Technologie (KIT)
  • H. M. Gibbs and G. Khitrova: Excitonic lattice control. In: Nature Photonics. 5, 2009, p. 613 - 615.

  • J. Sweet, B. C. Richards, J. D. Olitzky, J. Hendrickson, G. Khitrova, H. M. Gibbs, D. Litvinov, D. Gerthsen, D. Z. Hu, D. M. Schaadt, M. Wegener, U. Khankhoje, and A. Scherer: GaAs photonic crystal slab nanocavities: growth, fabrication, and quality factor. In: Photonics and Nanostructures – Fundamentals and Applications. 8, 2010, p. 1 - 6 [Semiconductor cavity QED].

  • U. K. Khanhoje, S.-H. Kim, B. C. Richards, J. Hendrickson, J. Sweet, J. D. Olitzky, G. Khitrova, H. M. Gibbs, and A. Scherer: Modelling and fabrication of GaAs photonic-crystal cavities for cavity quantum electrodynamics. In: Nanotechnology. 21, 2010, p. 065202-1 - 065202-7 [Semiconductor cavity QED].

Henneaux, Prof. Dr. Marc

Universite Libre de Bruxelles, Belgium
Field of research: Theoretical Physics
Host: Prof. Dr. Viatcheslav Mukhanov Ludwig-Maximilians-Universität München (LMU)
  • Marc Henneaux, Axel Kleinschmidt, Hermann Nicolai: Real forms of extended Kac–Moody symmetries and higher spin gauge theories. In: Gen Relativ Gravit. 44, 2012, p. 1787 - 1834 [Gravity, Hidden symmetries].

  • Marc Henneaux, Soo-Jong Rey: W(∞) as Asymptotic Symmetry of Three-Dimensional Higher Spin Anti-de Sitter Gravity. In: JHEP. 1012:007, 2010, p. 1 - 19 [Gravity in three spacetime dimensions, Higher Spins].

  • Marc Henneaux, Axel Kleinschmidt, Gustavo Lucena Gómez: Remarks on Gauge Invariance and First Class Constraints. In: Annals of the University of Craiova, Physics, Special Issue. 21, 2011, p. 1 - 10 [Gauge invariance, Dirac theory of constrained systems].

  • Claudio Bunster, Marc Henneaux: Can (Electric-Magnetic) Duality Be Gauged?. In: Physical Review D. 83, 2011, p. 045031-1 - 045031-7 [Duality, gauge invariance].

  • Claudio Bunster, Marc Henneaux: Sp(2n;R) electric-magnetic duality as off-shell symmetry of interacting electromagnetic and scalar fields. In: POS (Proceedings of Science). HRMS, 2011, p. 028-1 - 028-11 [Duality].

  • Claudio Bunster, Marc Henneaux: Action for Twisted Self-Duality. In: Physical Review D. 83, 2011, p. 125015-1 - 125015-11 [Duality, twisted duality, supergravity].

  • Marc Henneaux, Cristián Martínez, Ricardo Troncoso: Asymptotically warped anti-de Sitter spacetimes in topologically massive gravity. In: Physical Review D. 84, 2011, p. 124016-1 - 124016-8 [Gravity, asymptotic symmetries].

  • Claudio Bunster, Andrés Gomberoff, Marc Henneaux: Extended charged events and Chern-Simons couplings. In: Physical Review D. 84, 2011, p. 125012-1 - 125012-11 [Duality, magnetic sources, Chern-Simons terms].

  • Marc Henneaux, Bernard Julia, Jérôme Lévie: E11, Borcherds algebras and maximal supergravity. In: JHEP (Journal of High Energy Physics). 1204: 078, 2012, p. 1 - 30 [Duality, Kac-Moody algebra, Borcherds superalgebra].

  • Marc Henneaux, Gustavo Lucena Gómez, Soo-Jong Rey: Super-W(infinity) asymptotic symmetry of higher-spin AdS3 supergravity. In: JHEP. 1206:037, 2012, p. 037-1 - 037-48 [Higher spins, supergravity, asymptotic symmetries].

  • Marc Henneaux, Gustavo Lucena Gómez, Rakibur Rahman: Higher-spin fermionic gauge fields and their electromagnetic coupling. In: JHEP. 1208:093, 2012, p. 093-1 - 093-43 [Higher spins, consistent interactions, electromagnetic coupling].

  • Claudio Bunster, Marc Henneaux: Supersymmetric electric-magnetic duality as a manifest symmetry of the action for super-Maxwell theory and linearized supergravity. In: Physical Review D. 86, 2012, p. 065018-1 - 065018-9 [Duality, supersymmetry].

  • Claudio Bunster, Marc Henneaux: Duality Invariance Implies Poincaré Invariance. In: Physical Review Letters. 110, 2013, p. 011603-1 - 011603-3 [Duality, Spacetime covariance].

  • Claudio Bunster, Marc Henneaux, Sergio Hörtner: Gravitational electric–magnetic duality, gauge invariance and twisted self-duality. In: J Phys A. 46, 2013, p. 214016-1 - 214016-15 [Twisted self-duality, gravity].

  • Claudio Bunster, Marc Henneaux, Sergio Hörtner: Duality-Invariant Bimetric Formulation of Linearized Gravity. In: Rom J Phys. 58, 2013, p. 502 - 507 [Duality, gravity].

  • Marc Henneaux, Rakibur Rahman: Note on gauge invariance and causal propagation. In: Physical Review D. 88, 2013, p. 064013-1 - 064013-5 [Causality, higher spins].

  • Claudio Bunster, Marc Henneaux, Sergio Hörtner: Twisted self-duality for linearized gravity in D dimensions. In: Physical Review D. 88, 2013, p. 064032-1 - 064032-24 [Twisted self-duality, gravity].

  • Claudio Bunster, Marc Henneaux: Sources for generalized gauge fields. In: Physical Review D. 88, 2013, p. 085002-1 - 085002-4 [Higher spins, gauge invariance, sources].

  • Marc Henneaux, Alfredo Pérez, David Tempo, Ricardo Troncoso: Chemical potentials in three-dimensional higher spin anti-de Sitter gravity. In: JHEP (Journal of High Energy Physics). 1312:048, 2013, p. 048-1 - 048-11 [Black holes, three-dimensional gravity, higher spins].

  • Marc Henneaux, Gustavo Lucena Gómez, Rakibur Rahman: Gravitational interactions of higher-spin fermions. In: JHEP. 1401:087, 2014, p. 087-1 - 087-43 [Higher spins, consistent interactions, gravitational coupling].

  • Claudio Bunster, Marc Henneaux, Alfredo Pérez, David Tempo, Ricardo Troncoso: Generalized black holes in three-dimensional spacetime. In: JHEP. 1405:031, 2014, p. 031-1 - 031-52 [Black holes, thermodynamics, higher spins].

  • Claudio Bunster, Marc Henneaux, Sergio Hörtner, Amaury Leonard: Supersymmetric electric-magnetic duality of hypergravity. In: Physical Review D. 90, 2014, p. 045029-1 - 045029-12 [Duality, supersymmetry, hypergravity].

  • Andrea Campoleoni, Marc Henneaux: Asymptotic symmetries of three-dimensional higher-spin gravity: the metric approach. In: Journal of High Energy Physics. 3, 2015, p. 143/1 - 143/62 [Gravity in three dimensions, higher spins, asymptotic symmetries].

Hofstetter, Dr. Daniel

, Switzerland
Field of research: Electron and quantum optics
Host: Prof. Dr. Peter Unger Universität Ulm
  • S.B. Thapa, C. Kirchner, F. Scholz, G. Prinz, K. Thonke, A. Chuvilin, J. Biskupek, U. Kaiser, and D. Hofstetter: Structural and Spectroscopic Properties of AlN Layers grown by MOVPE. In: Journal of Crystal Growth. 298, 2007, p. 383 - 386 [Structural properties, x-ray diffraction, AlN layers].

Horanyi, Prof. Dr. Mihaly

University of Colorado at Boulder, United States of America
Field of research: Plasmaphysics
Host: Prof. Dr. Gregor E. Morfill Max-Planck-Institut für extraterrestrische Physik
  • Antal Juhasz, Mihaly Horanyi, Gregor Morfill: Signatures of Enceladus in Saturn's E-ring. In: Geophysical Research Letters. 34, 2007, p. L09104 [Saturn, planetary rings, dust].

  • Xu Wang, M. Horanyi, Z. Sternovsky, S. Robertson, G. E. Morfill: A laboratory model of the lunar surface potential near lit-dark boundaries. In: Geophysical Research Letters. 34, 2007, p. L16104, [Moon, dusty plasmas, surface charging].

  • Mihaly Horanyi, Antal Juhasz, Gregor Morfill: Large-scale structure of Saturn's E ring. In: Geophysical Research Letters. 35, 2008, p. L04203 [Saturn, rings, dust-plasma interaction].

Johnson, Prof. Dr. Walter

University of Notre Dame, United States of America
Field of research: Nuclear physics, atomic physics, molecular physics
Host: Prof. Dr. Gerhard Soff Technische Universität Dresden
  • Walter Johnson: Atomic Structure Theory: Lectures on Atomic Physics. Berlin: Springer Verlag, 2007, 324 pp. [atomic physics, many-body theory].

Jolos, Prof. Dr. Rostislav Vladimirovich

Joint Institute for Nuclear Research, Russian Federation
Field of research: Theoretical nuclear physics
Host: Prof. Dr. Werner Scheid Justus-Liebig-Universität Gießen
  • G. G. Adamian, N. V. Antonenko, R. V. Jolos, S. P. Ivanova, Yu. V. Palchikov, T. M. Shneidman, A. Andreev, W. Scheid: Nuclear Molecules. In: Int. J. Mod. Phys.. E16, 2007, p. 1021.

  • N. Minkov, P. Yotov, R. V. Jolos, W. Scheid: Intrinsic origin of the high order angular momentum terms in an nuclear rotation Hamiltonian. In: J. Phys.. G34, 2007, p. 299.

Julia, Dr. Bernard

Ecole Normale Superieure de Paris, France
Field of research: Mathematical physics
Host: Prof. Dr. Don B. Zagier Max-Planck-Institut für Mathematik
  • Bernard Julia: Langues de communication scientifique: Histoire et possibles. In: La fascination de la planète - Beiträge zur Politischen Wissenschaft - Band 169. (Ed. Soraya Nour Sckell, Damien Ehrhardt) Berlin: Duncker & Humlot, 2012, p. 107 - 136.

Kaminskii, Prof. Dr. Alexander

Russian Academy of Sciences, Russian Federation
Field of research: Solid state physics: electrical, magnetic, optical properties
Host: Prof. Dr. Ladislav Bohaty Universität zu Köln
  • Alexander Kaminskii, , H. Rhee, H. J. Eichler, S. N. Bagayev, H. Yagi, K. Ueda, A. Shirakawa: Stimulated Raman scattering in !garnet" LucAl5O12 ceramics - a novel host-material for Ln- and TM-lasant ions. In: Laser Phys. Letters. 8 N6, 2011, p. 458 - 464.

  • Alexander Kaminskii, J. Hanuza, M. Maczka, M. Prak, J. Lorenc, P. Becker, L. Bohaty: Polarized IR and Raman specta, temperature dependence of Phonons and lattice dynamic calculations for M'2M''Ge2O7 pyrogermanates (M'=Sr,Ba; M''=Mg,Zn). In: J. Raman Spectroscopy. 42 N4, 2011, p. 782 - 790.

  • Alexander Kaminskii, L. Bohaty, P. Becker, H. Rhee, H. J. Eichler, O. Lux, V. V. Koltashev: Simulated Raman scattering in natural crystals of SrSO4, BaSO4 and PbSO4; high-order Stokes and anti-Stokes generatin with single-wavelength UV, visible, and near-IR exitation, as well as cascaded up-conversion nonlinear (3- (3) lasing effects . In: Appl. Physics B.. 105 N2, 2011, p. 363 - 380.

  • Alexander Kaminskii, H. Rhee, O. Lux, S. Meister, U. Woogon, H. J. Eichler: Operation of a Raman laser inbulk silicon. In: Optics Letters. 36 N9, 2011, p. 1644 - 1655.

  • Alexander Kaminskii, H. Nakao, A. Shirakawa, K. Ueda, J. Liebertz, P. Becker, L. Bohaty: CW one-micron (4F3/2-4I11/2) laser oscillation of Nd3+ ions in melitite type Ca2MgSi2O7; Nd3+(Na4) crystal at its incommensurate-commensurate phase transition. In: Appl. Physics B. 103 N3, 2011, p. 629 - 635.

  • Alexander Kaminskii, L. Bayarijiargal, E. Haussuhl, N. Muller, S. Haussuhl, H. J. Eichler, H. Rhee, K, Ueda, A. Shirakawa, G. A. Reider: Manifestation of new Chi(3)-nonlinear optical interactons and Chi(2)-properties of orthorhombic bis(quanidinium) zirconium bis/Nitrilotriacetate) hydrate [C(NH2)3]2Zr[N(CH2OO)3]2-H2O crystal. In: Physica Status Solidi (a). 208 N3, 2011, p. 695 - 710.

  • Alexander Kaminskii, H. Rhee, O. Lux, J. J. Eichler, I. Bohaty, P. Becker, J. Liebertz, K. Ueda, A. Shirakawa, V. V. Koltashev: Many-Phonon stimulated Raman scattering and related cascaded and cross-cascaded (3)-nonlinear optical effects in melilite-type crystal Ca2ZnSi2O7. In: Laser Phys. Letter. 8 N12, 2011, p. 859 - 875.

  • Alexander Kaminskii, L Bohaty, P. Becker, H. Rhee, H. J. Eichler: Stokes and anti-Stokes lasing emission in celestine SrSO4, barite BaSO4 and anglesite PbSO4. In: Z. Kristallogr. Supplement. 31 N1, 2011, p. 74 - 75.

  • Alexander Kaminskii, O. Lux, H.J. Echler, H. Yoneda, A. Shirakawa, P. Becke, L. Bohatý: Berillium silicate, Be₂SiO4 (phenakite) - a novel trigonal SRS-active crystal. In: Laser Photon Review. 8, 2014, p. 324 - 331.

  • Alexander Kaminskii, P. Becker, H. Rhee, O. Lux, H.-J. Eichler, R. Kleinschrodt, R. Ruckamp, H. Yoneda, A. Shirakawa, L. Bohatý: Zircon, ZrSiO4 - a novel SRS (b) active crystal. In: Physica Status Solidi. 252, 2014, p. 305 - 315.

  • Alexander Kaminskii, O. Lux, H. Rhee, A. Kaltenbach, H.J. Eichler, J. Zang, D.Y. Tang, H. Yu, H. Zhang, J. Wang, H. Yoneda, K. Ueda, A. Shirakawa: Low-temperatur stimulated Raman scattering spectroscopy of tetragonal GdVO4 single crystals. In: Physica Status Solidi. 251, 2014, p. 1045 - 1062.

  • Alexander Kaminskii, H. H. Yu, J.Y. Wang, Y.Y. Zhang, H.J. Zhang, O. Lux, H. Rhee, H.J. Eichler, J. Hanuza, H. Yoneda, A. Shirakawa: Tetragonal SrGdGa3O7 and SrLaGa3O7 - novel SRS - active crystals. In: Laser Physics . 24, 2014, p. 1054 - 1088.

  • Alexander Kaminskii, O. Lux, V.G. Ralchenko, A.P. Bolshakov, V.I. Konov, G.V. Sharonov, A. Shirakawa, H. Yoneda, H. Rhee, H.-J. Eichler, R.P. Mildren: Multi-octave frequency comb generation by x(3)-nonlinear optical process in CVD diamond at low temperature. In: Laser Phys. Lett.. 11, 2014.

  • Alexander Kaminskii, O.Lux, J. Hanuza, H. Rhee, H.J. Eichler, J. Zhang, H. Yoneda, A. Shirakawa: Tetragonal LiLuF4 - a novel crystals, simultaneously active for SRS- and Ln3+-lasing. In: Phys. Status Solidi. 251, 2014, p. 1579 - 1589.

  • Alexander Kaminskii, O. Lux, J. Hanuza, H. Rhee, H.J. Eichler, H. Yoneda, J. Zhang, D. Tang, A. Shirakawa: Orthorhombic YA1O3 - a novel many-phonon SRS-active crystal. In: Laser Photon Rev.. 8, 2014, p. 847 - 864.

  • Alexander Kaminskii, O. Lux, J. Hanuza, H. Rhee, H.J. Eichler, J. Zhang, D. Tang, D. Shen, H. Yoneda, A. Shirakawa: Trigonal LaF3 - a novel SRS-active crystal. In: Laser Phys.. 24, 2014.

  • Alexander Kaminskii, H. Yu, H. Zhang, J. Wang, O. Lux, H. Rhee, H.J. Eichler, H. Yoneda, A. Shirakawa, J. Zhang, D. Tang: Monoclinic m-LaVo4 - a novel high Raman gain SRS-active crystal. In: Laser Phys. Lett. . 11, 2014.

  • Alexander Kaminskii, J. Zhang, O. Lux, H. Rhee, H.J. Eichler, D.V. Tang, H.H. Yu, H.J.Zhang, J. Wang, H. Yoneda, A. Shirakawa: Stimulated Raman scattering spectroscopy of Y0.4Gd0.6VO4 crystals with partly disordered zircon-type structure - observed of new x(3)-nonlinear optical interactions. In: Laser Phys. Lett. . 24, 2014.

Kienberger, Prof. Dr. Reinhard

Technische Universität München, Germany
Field of research: Electron and quantum optics
Host: Prof. Dr. Ferenc Krausz Max-Planck-Institut für Quantenoptik (MPQ)
  • D.M. Fritz, D.A. Reis, B. Adams, R.A. Akre, J. Arthur, C. Blome, P.H. Bucksbaum, A.L. Cavalieri, S. Engemann, S. Fahy, R.W. Falcone, P.H. Fuoss, K.J. Gaffney, M.J. George, J. Hajdu, M.P. Hertlein, P.B. Hillyard, M. Horn von Hoegen, M. Kammler, J. Kaspar, R. Kienberger, P. Krejcik, S.H. Lee, A.M. Lindenberg, B. McFarland, D. Meyer, T. Montagne, E.D. Murray, A.J. Nelson, M. Nicoul, R. Pahl, J. Rudati, H. Schlarb, D.P. Siddons, K. Sokolowsky-Tinten, Th. Tschentscher, D. von der Linde, J.B. Hastings: Ultrafast Bond Softening in Bismuth: Mapping a Solid´s Interatomic Potential with X-rays. In: Science. 315, 2007, p. 633.

  • A. L. Cavalieri, E. Goulielmakis, B. Horvath, W. Helml, M. Schultze, M. Fieß, V. Pervak, L. Veisz, V. Yakovlev, M. Uiberacker, A. Apolonski, F. Krausz, R. Kienberger: Intense 1.5-cycle near infrared laser waveforms and their use for the generation of ultrabroad-band soft-X-ray harmonic continua. In: New Journal of Physics. 9, 2007, p. 242.

  • E. Goulielmakis, V. Yakovlev, A. L. Cavalieri, M. Uiberacker, V. Pervak, A. Apolonsky, R. Kienberger, U. Kleineberg, F. Krausz: Attosecond Control and Measurement: Lightwave Electronics. In: Science. 317, 2007, p. 769.

  • A. L. Cavalieri, N. Müller, Th. Uphues, V. Yakovlev, A. Baltuska, B. Horvath, B. Schmidt, L. Blümel, S. Hendel, P. M. Echenique, M. Drescher, U. Kleineberg, R. Kienberger, F. Krausz, U. Heinzmann: Attosecond time-resolved photoemission from solids. In: Nature. 449, 2007, p. 1029 - 1032 [attosecond spectroscopy on a solid].

  • M. Fieß, B. Horvath, T. Wittmann, W. Helml, Y. Cheng, B Zeng, Z. Xu, A. Scrinzi, J. Gagnon, F. Krausz, R.Kienberger: Attosecond control of tunneling ionization and electron trajectories. In: New J. Phys.. 13, 2011, p. 1367 - 2630.

  • F. Reiter, U. Graf, E.e. Serebryannikov, W. Schweinberger, M. Fieß, M. Schultze, A. M. Azzeer, R. Kienberger, F. Krausz, A. M. Zheltikov, E. Goulielmakis: Route to Attosecond Nonlinear Spectroscopy. In: PRL. 105, 2011, p. 24.

  • M. Hofstetter, M. Schultze, M. Fieß, B. Dennhardt, A. Guggenmos, J. Gagnon, V. S. Yakovlev, E. Goulielmakis, R. Kienberger, E. M. Gullikson, F. Krausz, U. Kleineberg: Attosecond dispersion control by extreme ultraviolet multilayer mirrors. In: Optics Express. 19, 2011, p. 1767 - 1776.

  • A. M. Sayler, Tim Rathje, Walter Müller, Klaus Rühle, R. Kienberger, and G. g. Paulus: Precise, real-time, every-single-shot, carrier-envelope phase measurement of ultrashort laser pulses. In: Opt. Lett. 36, 2011, p. 1 - 3.

  • M. Fieß, M. Schultze, E. Goulielmakis, B. Dennhardt, J. Gagnon, M. Hofstetter, R. Kienberger, and F. Krausz: Versatile apparatus for attosecond metrology and spectroscopy. In: Rev. Sci. Inst.. 81, 2010, p. 9.

  • A. M. Zheltikov, A. A. Voronin, R. Kienberger, F. Krausz, G. Korn: Frequency-Tunable Multigigawatt Sub-Half-Cycle Light Pulses from Coupled-State Dynamics of Optical Solitons and Impulsively Driven Molecular Vibrations. In: PRL. 105, 2010, p. 103901.

  • M. Schultze, R. Kienberger: Elektronenjagd mit Attosekundenblitzen. In: Physik Journal. 9, 2010, p. 39.

  • F. Reiter, U. Graf, M. Schultze, W. Schweinberger, H. Schröder, N. Karpowicz, A. M. Azzeer, R. Kienberger, F. Krausz, E. Goulielmakis,: Generation of sub-3 fs pulses in the deep ultraviolet. In: Optics Letters. 35, 2010, p. 2248.

  • M. Schultze, M. Fieß, N. Karpowicz, J. Gagnon, M. Korbmann, M. Hofstetter, S. Neppl, A. Cavalieri, Y. Komninos, Th. Mercouris, C. A. Nicolaides, R. Pazourek, S. Nagele, J. Feist, J. Burgdörfer, A. M. Azzeer, R. Ernstorfer, R. Kienberger, U. Kleineberg, E. Goulielmakis, F. Krausz and V. S. Yakovlev: Delay in Photoemission. In: Science (online). 328, 2010, p. 1645.

  • E. M. Bothschafter, A. Schiffrin, V. S. Yakovlev, A. M. Azzeer, F. Krausz, R. Ernstorfer, and R. Kienberger: Collinear generation of ultrashort UV and XUV pulses. In: Opt. Exp.. 18, 2010, p. 9173.

  • T. Metzger, A. Schwarz, C. Y. Teisset, D. Sutter, A. Killi, R. Kienberger, F. Krausz: High repetition-rate picosecond pump laser based on a Yb:YAG disk amplifier for optical parametric amplification. In: Optics Letters. 34, 2009, p. 2123.

  • T. Wittmann, B. Horvath, W. Helml, M. G. Schätzel, X. Gu, A. L. Cavalieri, G. G. Paulus, R. Kienberger: Single-Shot Carrier-Envelope Phase Measurement of Few-Cycle Laser Pulses. In: Nature Physics. 5, 2009, p. 357 - 362.

  • X. Gu, G. Marcus, Y. Deng, Th. Metzger, C. Teisset, N. Ishii, T. Fuji, A. Baltuska, H. Ishizuki, T. Taira, T. Kobayashi, R. Kienberger and F. Krausz: Generation of carrier-envelope phase-stable 2-cycle 650 µJ pulses at 2.1-µm carrier wavelength. In: Optics Express . 17, 2009, p. 62.

  • U. Graf, M. Fieß, M. Schultze, R. Kienberger, F. Krausz and E. Goulielmakis: Intense few-cycle light pulses in the deep ultraviolet. In: Optics Express. 16, 2008, p. 18956.

  • E. Goulielmakis, M. Schultze, M. Hofstetter, V. Yakovlev, J. Gagnon, M. Uiberacker, A. L. Aquila, A. M. Gullikson, D. T. Attwood, R. Kienberger, F. Krausz, U. Kleineberg: Single-cycle nonlinear optics. In: Science. 320, 2008, p. 1614.

  • A. L. Cavalieri, E. Goulielmakis, B. Horvath, W. Helml, M. Schultze, M. Fieß, V. Pervak, L. Veisz, V. Yakovlev, M Uiberacker, A. Apolonski, F. Krausz, R. Kienberger: Intense 1.5-cycle near infrared laser waveforms and their use for the generation of ultrabroad-band solft-X-ray hamonic continua. In: NJP. 9, 2007, p. 242.

  • A. L. Cavalieri, N. Müller, Th. Uphues, V. Yakovlev, A. Baltuska, B. Horvath, B. Schmidt, L. Blümel, S. Hendel, P. M. Echenique, M. Drescher, U. Kleineberg, R. Kienberger, F. Krausz, U. Heinzmann: Attosecond time-resolved photoemission from solids. In: Nature. 449, 2007, p. 1029.

  • F. Remacle, R. Kienberger, F. Krausz, R. D. Levine: On the feasibility of an ultrafast purely electronic reorganization in lithium hydride. In: Chemical Physics. 338, 2007, p. 342 - 347.

  • R. Kienberger, M Uiberacker, MF Kling, F. Krausz: Attosecond physics comes of age: from tracing to steering electrons at sub-atomic scales. In: J. Mod. Opt. . 54, 2007, p. 1985 - 1998.

  • A. Cavalieri, F. Krausz, R. Ernstorfer, R. Kienberger, P. Feulner, J. Barth, D. Menzel: Attosecond Time-Resolved Spectroscopy at Surfaces, in Dynamics at Solid Surfaces and Interfaces. In: Wiley-VCH. 2010.

Komech, Prof. Dr. Alexander

Moscow M.V. Lomonosov State University, Russian Federation
Field of research: Mathematical physics
Host: Prof. Dr. Herbert Spohn Technische Universität München
  • Alexander Komech: Lectures on elliptic partial differential equations (Pseudodifferential operator approach). Leipzig: Max-Planck Institute for Mathematics in the Sciences, 2007, 44 pp. [distribution, Fourier transform, pseudodifferential operator, elliptic operator].

  • Alexander Komech, Andrew Komech: Book of Practical PDEs. Leipzig: Max-Planck Institute for Mathematics in the Sciences, 2007, 125 pp. Original author: Alexander Komech (English) [hyperbolic equations, method of characteristics, Fourier transform, distributions, fundamental solution, Green's function ].

  • Alexander Komech, Andrew Komech: Global attractor for a nonlinear oscillator coupled to the Klein-Gordon field. In: Arch. Rat. Mech. Anal.. 185, 2007, p. 105 - 142 [nonlinear Klein-Gordon equation, nonlinear oscillator, attractor, Fourier-Laplace transform, spectrum, quasimeasure, Titchmarsh theorem ].

  • Alexander Komech, Andrew Komech: Global well-posedness for the Schrodinger equation coupled to a nonlinear oscillator,. In: Russ. J. Math. Phys. 14, 2007, p. 164 - 173 [nonlinear Schroedinger equation, global solution, a priori estimates].

  • Alexander Komech, Anatoly Merzon: On relation between the Cauchy data in scattering by wedge. In: Russ. J. Math. Phys.. 14, 2007, p. 279 - 303 [elliptic equation, Cauchy data, complex characteristics, Riemannian surface, analytic continuation,].

  • Alexander Komech, Elena Kopylova, Boris Vainberg: On dispersive properties of discrete 2D Schr\"odinger and Klein-Gordon equations. In: J. Funct. Analysis. 254, 2008, p. 2227 - 2254 [weighted energy decay, asymptotic completeness, scattering, resolvent, limiting absorption principle ].

  • Alexander Komech, Andrew Komech: Principles of Partial Differential Equations. New York, Dordrecht, Heidelberg, London: Springer, 2009, 161 pp. [partial differential equations, wave equation, heat equation, d'Alembert method, d'Alembert formula, Kirchhoff formula, characteristic, Fourier method, distributions, eigenfunctions, Green function, fundamental solution, Sobolev space, Huygens principl].

  • Vladimir Buslaev, Alexander Komech, Elena Kopylova, David Stuart: On asymptotic stability of solitary waves in nonlinear Schroedinger equation. In: Comm. Partial Diff. Eqns. 33, 2008, p. 669 - 705 [asymptotic stability, solitary waves, nonlinear Schroedinger equation, solitary manifold, symplectic projection, modulation equations, dispersive decay ].

  • Alexander Komech, Andrew Komech: Global Attraction to Solitary Waves in Models Based on the Klein-Gordon Equation. In: Symmetry Integrability Geom. Methods Appl.. 4, 2008, p. 1 - 23 [Klein-Gordon equation, nonlinear oscillator, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem].

  • Alexander Komech, Anatoli Merzon: Scattering in the nonlinear Lamb system. In: Physics Letters A. 373, 2009, p. 1005 - 1010 [wave equation, nonlinear oscillator, global attractor, energy radiation, asymptotic states, asymptotic completeness].

  • Alexander Komech, Anatoli Merzon: On asymptotic completeness of scattering in the nonlinear Lamb system. In: J. Math. Physics. 50, 2009, p. 023514-1 - 023514-10 [wave equation, nonlinear oscillator, global attractor, energy radiation, asymptotic states, asymptotic completeness].

  • Alexander Komech, Andrew Komech: Global attraction to solitary waves for Klein-Gordon equation with mean field interaction. In: Annales de l'IHP-ANL. 26, 2009, p. 855 - 868 [Klein-Gordon equation, mean field interaction, nonlinear oscillator, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem ].

  • Alexander Komech, Andrew Komech: On global attraction to solitary waves for the Klein-Gordon field coupled to several nonlinear oscillators. In: J. des Mathematiques Pures et App.. 93, 2010, p. 91 - 111 [Klein-Gordon equation, nonlinear oscillator, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem ].

  • Alexander Komech, Elena Kopylova: Weighted energy decay for 3D Klein-Gordon equation. In: J. Differential Equations. 248, 2010, p. 501 - 520 [weighted energy decay, asymptotic completeness, scattering, resolvent, limiting absorption principle ].

  • Alexander Komech, Elena Kopylova: Weighted energy decay for 1D Klein-Gordon equation. In: Comm. PDE. 35 , 2010, p. 353 - 374 [weighted energy decay, asymptotic completeness, scattering, resolvent, limiting absorption principle ].

  • Alexander Komech, Elena Kopylova: Long time decay for 2D Klein-Gordon equation. In: J. Functional Analysis. 259, 2010, p. 477 - 502 [weighted energy decay, asymptotic completeness, scattering, resolvent, limiting absorption principle ].

  • Valery Imaykin, Alexander Komech, Boris Vainberg: On scattering of solitons for wave equation coupled to a particle. In: Proceedings of the international conference "Probability and Mathematical Physics" (Montreal, Canada, 2006), Centre de recherches mathematiques, Universit\'e de Montreal, CMR Proceedings and Lecture Notes . 42, 2007, p. 249 - 273 [asymptotic stability, solitary waves, wave equation, particle, solitary manifold, symplectic projection, modulation equations, dispersive decay ].

  • Alexander Komech, Anatoli Merzon: On relation between the Cauchy data in the scattering problems on a wedge. In: 22-nd Conference of I.G. Petrovskii ``Differential equations and related topics~, Moscow 21.05--26.05.2007. Book of abstracts. 2007, p. 145 - 146.

  • Alexander Komech, Elena Kopylova, David Stuart: On asymptotic stability of solitary waves for Schroedinger equation coupled to nonlinear oscillator. In: Oberwolfach Rep.. 5, 2008, p. 386 - 389 [asymptotic stability, solitary waves, nonlinear Schroedinger equation, solitary manifold, symplectic projection, modulation equations, dispersive decay ].

  • Alexander Komech: On global attraction to solitary waves for the Klein-Gordon equation coupled to nonlinear oscillator. In: International Conference on Differential Equations and Dynamical Systems, Suzdal, 25.06-2.07 2008, Vladimir 2008. 2008, p. 308 - 309 [Klein-Gordon equation, mean field interaction, nonlinear oscillator, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem ].

  • Alexander Komech, Andrew Komech: Global attraction to solitary waves in models based on the Klein-Gordon equation. In: Abstracts of 5th European Congress of Mathematics, Amsterdam 14-18 July, Amsterdam, 2008. 2008, p. 58 - 58 [Klein-Gordon equation, mean field interaction, nonlinear oscillator, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem ].

  • Alexander Komech, Anatoli Merzon, Taneco Hernandes: On scattering states in nonlinear Lamb systems. In: Abstracts of 5th European Congress of Mathematics, Amsterdam 14-18 July, Amsterdam, 2008. 2008, p. 58 - 58 [wave equation, nonlinear oscillator, global attractor, energy radiation, asymptotic states, asymptotic completeness ].

  • Alexander Komech: On global attraction to quantum stationary states. In: The International Conference "Modern Problems of Mathematics, Mechanics and their Applications" 30.03-2.04.2009, Moscow State University, Moscow, 2009. 2009, p. 250 - 250 [Klein-Gordon equation, mean field interaction, nonlinear oscillator, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem ].

  • Alexander Komech, Andrew Komech: Global attraction to quantum stationary states. In: XVI International Congress on Mathematical Physics, Prague, August 3-8, 2009. 2009, p. 30 - 30 [Klein-Gordon equation, mean field interaction, nonlinear oscillator, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem ].

  • Alexander Komech, Elena Kopylova: On asymptotic stability of kink for relativistic Ginzburg-Landau equation. In: XVI International Congress on Mathematical Physics, Prague, August 3-8, 2009. 2009, p. 30 - 30 [asymptotic stability, solitary waves, kink, relativistic equation, Ginzburg-Landau equation, nonlinear oscillator, solitary manifold, symplectic projection, modulation equations, dispersive decay ].

  • Valery Imaykin, Alexander Komech, Herbert Spohn, Boris Vainberg: Soliton-type asymptotics for wave-particle systems. In: XVI International Congress on Mathematical Physics, Prague, August 3-8, 2009. 2009, p. 58 - 58 [wave equation, particle, Wiener condition, global attractor, solitary wave, solitary manifold, continuous spectrum, weighted energy decay ].

  • Alexander Komech, Elena Kopylova: Dispersive long-time decay for Klein-Gordon equation. In: Modern Problems of Analysis and Mathematical Education. Proceedings of International Conference dedicated to 105-anniversary of S.M.Nikolskii, 18-20 May 2010. 2010, p. 89 - 89 [Klein-Gordon equation, weighted energy decay, asymptotic completeness, scattering, resolvent, limiting absorption principle ].

  • Alexander Komech: On global attractors of nonlinear hyperbolic PDEs. In: 8th AIMS International Conference ``Dynamical Systems, Differential Equations and Applications'', 25-28 May, 2010, Dresden. 2010, p. 319 - 320 [Klein-Gordon equation, mean field interaction, nonlinear oscillator, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem ].

  • Alexander Komech: On global attractors of nonlinear hyperbolic PDEs. In: Proceedings of International Conference on Differential Equations and Dynamical Systems, July 02-07, 2010, Suzdal, Vladimir region, Russia. 2010, p. 216 - 216 [Klein-Gordon equation, mean field interaction, nonlinear oscillator, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem ].

  • Alexander Komech, Andrew Komech: On global attractors of nonlinear hyperbolic PDEs. In: International Congress of Mathematicians, Hyderabad, August 19-27, 2010, "Abstracts, Short Communications, Posters", Hindustan Book Agency, 2010. 2010, p. 397 - 398 [Klein-Gordon equation, Dirac equation, nonlinear oscillator, mean field interaction, gauge invariance, global attractor, solitary wave, solitary manifold, energy radiation, continuous spectrum, Titchmarsh Convolution Theorem ].

  • Alexander Komech, Andrew Komech: Global attraction to solitary waves for nonlinear Dirac equation with mean field interaction. In: SIAM J. Math. Analysis. 42, 2010, p. 2944 - 2964 [attractor, nonlinear Dirac equation, solitary wave, Titchmarsh theorem, energy radiation ].

  • Alexander Komech, Andrew Komech: On global attraction to quantum stationary states. Dirac equation with mean field interaction. In: Commun. Math. Anal.. Conf. 03, 2011, p. 131 - 136 [attractor, nonlinear Dirac equation, solitary wave, Titchmarsh theorem, energy radiation ].

  • Alexander Komech, Elena Kopylova: On asymptotic stability of moving kink for relativistic Ginzburg-Landau equation. In: Comm. Math. Physics. 302, 2011, p. 225 - 252 [asymptotic stability, solitary waves, kink, Ginzburg-Landau equation, symplectic projection, modulation equations ].

  • Alexander Komech, Andrew Komech: On global attraction to quantum stationary states. Dirac equation with mean field interaction. In: Commun. Math. Anal. . Conf. 3, 2011, p. 131 - 136 [attractor, nonlinear Dirac equation, solitary wave, Titchmarsh theorem, energy radiation].

  • Alexander Komech, Elena Kopylova, Herbert Spohn: Scattering of solitons for Dirac equation coupled to a particle. In: J. Math. Anal. Appl.. 383, 2011, p. 265 - 290 [Dirac equation, asymptotic stability, solitary waves, soliton, symplectic projection, modulation equations].

  • Alexander Komech, Elena Kopylova: On asymptotic stability of kink for relativistic Ginzburg-Landau equations. In: Arch. Ration. Mech. Anal.. 202, 2011, p. 213 - 245 [asymptotic stability, solitary waves, kink, Ginzburg-Landau equation, symplectic projection, modulation equations].

  • Andrew Comech, Alexander Komech, : Well-posedness and the energy and charge conservation for nonlinear wave equations in discrete space-time. In: Russ. J. Math. Phys.. 18, 2011, p. 410 - 419 [discrete wave equation, well-posedness, energy, charge].

  • Alexander Komech, Elena Kopylova: On convergence to equilibrium distribution for Dirac equation. In: Markov Processes and Related Fields . 17, 2011, p. 523 - 540 [random solution, Dirac equation, mixing condition, method of series, correlation function, measure, scattering, wave operator].

  • Alexander Komech, Elena Kopylova, David Stuart: On asymptotic stability of solitary waves for Sch\"odinger equation coupled to nonlinear oscillator. In: Comm. Pure Appl. Anal.. 202, 2012, p. 1063 - 1079 [Sch\].

  • Valery Imaykin, Alexander Komech, Boris Vainberg: Scattering of solitons for coupled wave-particle equations. In: J. Math. Anal. Appl. . 389, 2012, p. 713 - 740 [asymptotic stability, solitary waves, soliton, symplectic projection, modulation equations].

  • Alexander Komech, Elena Kopylova: Weighted decay for magnetic Schroedinger equation. In: J. Funct. Analysis . 264, 2013, p. 735 - 751 [ magnetic Schroedinger equation, dispersion decay, Hardy inequality, Mourre estimates, minimal escape velocity].

  • Alexander Komech, Elena Kopylova, Yurii Karlovich, Anatoly Merzon: On the spreading rate of the soliton perturbation for relativistic nonlinear wave equation. In: Comm. Math. Analysis. 14, 2013, p. 95 - 102 [relativistic nonlinear wave equation, soliton ].

  • Alexander Komech, Anatoly Merzon: On asymptotic completeness of scattering in the nonlinear Lamb system II. In: J. Math. Physics. 54, 2013, p. 012702 - 012710 [asymptotic completeness, scattering, Lamb system].

  • Alexander Komech: Quantum Mechanics: Genesis and Achievements. Dordrecht: Springer, 2013, 302 pp. [combination principle, commutation relations, conservation laws, correspondence principle, cross section, diffraction, dipole radiation, electron, Heisenberg equation, geometrical optics, Hamilton-Jacobi theorem, Schroedinger equation, Dirac equation].

  • Alexander Komech, Elena Kopylova: Dispersion Decay and Scattering Theory. Hoboken, NJ: John Wiley & Sons, 2012, 203 pp. [asymptotic completeness, continuous spectrum, Cook method, cross section, dispersion decay, high energy decay, Kato Theorem, limiting absorption principle, limiting amplitude principle, Schroedinger operator, S-matrix, T-matrix, weighted Sobolev norm].

  • Alexander Komech, Elena Kopylova, Sergey Kopylov: On nonlinear wave equations with parabolic potentials. In: Journal of Spectral Theory. 3, 2013, p. 1 - 19 [Relativistic invariant nonlinear wave equations, soliton, kink, spectrum, resonance, eigenvalue, Fermi golden rule].

  • Alexander Komech, Andrew Komech: A variant of the Titchmarsh convolution theorem for distributions on the circle. In: Funct. Anal. Appl.. 47, 2013, p. 21 - 26 Original author: Alexander Komech, Andrew Komech (English) [convolution, distribution, circle].

  • Alexander Komech, E. Kopylova: On eigenfunction expansion of solutions to the Hamilton equations. In: J. Stat. Phys.. 154, 2014, p. 503 - 521 [eigenfunction, expansion, Hamilton operator].

  • Prof. Dr. Alexander Komech: On the Hartree-Fock dynamics in wave-matrix picture. In: Dynamics of PDE. 12, 2015, p. 157 - 176 [Hartree-Fock equations, density matrix, dynamics].

  • Prof. Dr. Alexander Komech: On the crystal ground state in the Schroedinger-Poisson model. In: SIAM J. Math. Anal. . 47, 2015, p. 1001 - 1021 [crystal, ground state, Schroedinger-Poisson equations].

  • Prof. Dr. Alexander Komech, Dr. V. Imaykin, Prof. Dr. H. Spohn: On Lagrangian theory for rotating charge coupled to the Maxwell field. In: Physics Letters A. 379, 2015, p. 5 - 10 [Lagrangian, rotating charge, Maxwell field].

  • Prof. Dr. Alexander Komech, Dr. E.A. Kopylova: Weighted energy decay for magnetic Klein-Gordon equation. In: J. Applicable Analysis. 94, 2015, p. 219 - 233 [Weighted energy decay, magnetic Klein-Gordon equation].

  • Prof. Dr. Alexander Komech, Prof. Dr. A.E. Merzon, Dr. J.E. De la Paz Mendez, Dr. T. J. Villalba Vega: On the Keller-Blank solution to the scattering problem of pulses by wedges. In: Mathematical Methods in Applied Sciences. 38, 2015, p. 2035 - 2040 [ scattering, pulses, wedges].

  • Prof. Dr. Alexander Komech, Dr. E.A. Kopylova: On the eigenfunction expansion for Hamilton operators. In: J. Spectral Theory. 5, 2015, p. 331 - 361 [eigenfunction expansion, Hamilton operators].

  • Prof. Dr. Alexander Komech, Dr. A.E. Merzon, Dr. J.E. De la Paz Mendez: On uniqueness and stability of Sobolev's solution in scattering by wedges. In: Zeitschrift fuer angewandte Mathematik und Physik . 66, 2015, p. 2485 - 2498 [uniqueness, stability, scattering, wedges].

  • Prof. Dr. Alexander Komech: On dynamical justification of quantum scattering cross section. In: J. Math. Anal. Appl.. 432, 2015, p. 583 - 602 [dynamics, quantum scattering, cross section].

  • Alexander Komech, Elena Kopylova: Asymptotic stability of stationary states in the wave equation coupled to a nonrelativistic particle . In: Russian Journal of Mathematical Physics. 23, 2016, p. 93 - 100 [Asymptotic stability, stationary states, wave equation, nonrelativistic particle ].

  • Alexander Komech: On crystal ground state in the Schr\"odinger-Poisson model with point ions. In: Mathematical Notes. 99, 2016, p. 886 - 894 [crystal, ground state, Schroedinger-Poisson equations, point ions ].

  • Alexander Komech: Attractors of nonlinear Hamilton PDEs. In: Discrete and Continuous Dynamical Systems A. 36, 2016, p. 6201 - 6256 [attractors, nonlinear equations, Hamilton partial differential equations].

  • Alexander Komech, Elena Kopylova: On the linear stability of crystals for the Schroedinger-Poisson model. In: Journal of Statistical Physics. 165, 2016, p. 246 - 273 [linear stability, crystals, Schroedinger-Poisson equations].

  • V. Imaykin, A. Komech, H. Spohn. : On invariants for the Poincar\'e equations and applications. In: J. Math. Phys.. 58, 2017, p. 012901-1 - 012901-13 [invariants; Poincaré equations; Maxwell-Lorentz equations; rotating extended electron; group SO(3).].

  • A. Komech, E. Kopylova: On stability of ground states for finite crystals in the Schr\"odinger-Poisson model. In: J. Math. Phys.. 58, 2017, p. 031902-1 - 031902-18 [stability; ground state; finite crystal; Schr\].

  • A.Komech, E. Kopylova, H. Spohn,: On global attractors and radiation damping for nonrelativistic particle coupled to scalar field. In: Algebra and Analysis. 29, 2017, p. 34 - 58 [attractor; radiation damping; nonrelativistic particle; scalar field.].

  • A. Komech, A. E. Merzon: Asymptotic completeness of scattering in the nonlinear Lamb system for nonzero mass. In: Russ. J. Math. Phys.. 24, 2017, p. 336 - 346 [ asymptotic completeness; scattering; Lamb system.].

Koshihara, Prof. Dr. Shinya

Tokyo Institute of Technology, Japan
Field of research: Solid state physics: electrical, magnetic, optical properties
Host: Prof. Dr. Dwayne R. J. Miller Max-Planck-Institut für Struktur und Dynamik der Materie
  • Tadahiko Ishikawa1 Stuart A. Hayes, Sercan Keskin, Gastón Corthey, Masaki Hada, Kostyantyn Pichugin, Alexander Marx, Julian Hirscht, Kenta Shionuma, Ken Onda, Yoichi Okimoto, Shin-ya Koshihara, Takashi Yamamoto, Hengbo Cui, Mitsushiro Nomura, Yugo Oshima, Majed Abdel-Jawad, Reizo Kato, R. J. Dwayne Miller : Direct observation of collective modes coupled to molecular orbital–driven charge transfer. In: Science. 350, 2015, p. 1501 - 1505 [Photoinduced Phase transitions, ultrafast electron diffraction, molecular crystal, molecular movies ].

Krishnan, Prof. Dr. Kannan Manjapra

University of Washington, United States of America
Field of research: Solid state physics: electrical, magnetic, optical properties
Host: Prof. Dr. Gerhard Adam Universität Hamburg
  • Kannan M. Krishnan: Fundamentals and Applications of Magnetic Materials. Oxford, United Kingdom: Oxford University Press, 2016, 794 pp.

Kukushkin, Prof. Dr. Igor Vladimirovich

Russian Academy of Sciences, Russian Federation
Field of research: Solid state physics: electrical, magnetic, optical properties
Host: Prof. Dr. Klaus von Klitzing Max-Planck-Institut für Festkörperforschung
  • I. V. Kukushkin, J. H. Smet, D. Schue, W. Wegscheider, K. von Klitzing : Dispersion of the Composite Fermion cyclotron resonance mode . In: Phys. Rev. Lett.. 98, 2007, p. 066403.

Kurizki, Prof. Dr. Gershon

Weizmann Institute of Science, Israel
Field of research: Electron and quantum optics
Host: Prof. Dr. Markus Oberthaler Ruprecht-Karls-Universität Heidelberg
  • Nir Bar-Gill, Gershon Kurizki, Markus Oberthaler, and Nir Davidson: Dynamic control and probing of many-body decoherence in double-well Bose-Einstein condensates. In: Phys. Rev. A . 80, 2009, p. 053613.

  • David Petrosyan, Guy Bensky, Gershon Kurizki, Igor Mazets, Johannes Majer, and Jörg Schmiedmayer: Reversible state transfer between superconducting qubits and atomic ensembles. In: Phys. Rev. A . 79, 4, 2009, p. 040304.

  • Jens Clausen, Guy Bensky, and Gershon Kurizki: Bath-Optimized Minimal-Energy Protection of Quantum Operations from Decoherence. In: Phys. Rev. Lett. 104, 4, 2010, p. 040401.

  • Gonzalo A. Álvarez, D. D. Bhaktavatsala Rao, Lucio Frydman, and Gershon Kurizki: Zeno and Anti-Zeno Polarization Control of Spin Ensembles by Induced Dephasing. In: Phys. Rev. Lett. 105, 16, 2010, p. 160401.

  • Nir Bar-Gill, Christian Gross, Igor Mazets, Markus Oberthaler, and Gershon Kurizki: Einstein-Podolsky-Rosen Correlations of Ultracold Atomic Gases. In: Phys. Rev. Lett. 106, 12, 2011, p. 120404.

  • D. D. Bhaktavatsala Rao and Gershon Kurizki: From Zeno to anti-Zeno regime: Decoherence-control dependence on the quantum statistics of the bath. In: Phys. Rev. A . 83, 3, 2011, p. 032015.

  • Nir Bar-Gill, D. D. Bhaktavatsala Rao, and Gershon Kurizki: Creating Nonclassical States of Bose-Einstein Condensates by Dephasing Collisions. In: Phys. Rev. Lett. 107, 1, 2011, p. 010404.

  • D. D. Bhaktavatsala Rao, Nir Bar-Gill, and Gershon Kurizki: Generation of Macroscopic Superpositions of Quantum States by Linear Coupling to a Bath. In: Phys. Rev. Lett. 106, 2011, p. 010404.

  • Gross C., Strobel H., Nicklas E., et al: Atomic homodyne detection of continuous-variable entangled twin-atom states. In: Nature. 480, 2011, p. 219 - 219.

  • Bensky Guy, Amsuess Robert, Majer Johannes et al., : Controlling quantum information processing in hybrid systems on chips. In: QIP. 10, 2011, p. 1037.

  • Xie Xiangsheng, Chen Yongzhu, Zhang Peiqing et al: Optimizing lightwave transmission through a nano-tip, AIP advances. In: AIP advances . 1, 2, 2011, p. 022130.

  • Goren Gordon and Gershon Kurizki: Scalability of decoherence control in entangled systems. In: Phys. Rev. A . 83, 3, 2011, p. 032321.

  • E. Shahmoon, G. Kurizki, M. Fleischhauer, D. Petrosyan: Stongly interacting photons in hollow-core waveguides. In: Phys. Rev. A . 83, 3, 2011, p. 033806.

  • Christian O Bretschneider, Gonzalo A Alvarez, Gershon Kurizki et al: Controlling Spin-Spin Network Dynamics by Repeated Projective Measurements. In: Phys. Rev. Lett. . 108, 14, 2012, p. 140403.

  • Jens Clausen, Guy Bensky and Gershon Kurizki: Task-optimized control of open quantum systems. In: Phys. Rev. A . 85, 5, 2012, p. 052105.

  • Guy Bensky, David Petrosyan, Johannes Majer, et.al: Optimizing inhomogeneous spin ensembles for quantum memory,. In: Phys. Rev. A. 86, 2012, p. 012310.

Liu, Prof. Dr. Hui Chun


Field of research: Semiconductor physics
Host: Dr. Harald Schneider Helmholtz-Zentrum Dresden-Rossendorf (HZDR)
  • Hui Chun Liu, Harald Schneider, Thomas Maier, Martin Walther: Two-photon photocurrent spectroscopy of electron intersubband relaxation and dephasing in quantum wells. In: Applied Physics Letters. 91, 2007.

  • Hui Chun Liu, Harald Schneider, Thomas Maier, Martin Walther: Two-photon photocurrent autocorrelation using intersubband transitions at nearly-resonant excitation. In: Optics Express. 16, No. 3, 2008, p. 1523 - 1528.

Mamun, Prof. Dr. A. A.

Jahangirnagar University, Bangladesh
Field of research: Plasmaphysics
Host: Prof. Dr. Reinhard Schlickeiser Ruhr-Universität Bochum
  • A. A. Mamun, P. K. Shukla: Formation of dust-acoustic shock waves in a strongly coupled cryogenic dusty plasma:. In: Physics Letters A. 373, 2009, p. 3161 - 3164 [Strongly coupled dusty plasma; Dust-acoustic waves; Shock waves].

  • A. A. Mamun, P. K. Shukla: Cylindrical and spherical dust ion-acoustic shock waves in a dusty plasma:. In: Europhysics Letters. 87, 2009, p. 25001:1 - 25001:4 [Dusty Plasma; Dust ion-acoustics waves; Cylindrical and spherical shock waves ].

  • A. A. Mamun, P. K. Shukla: Effects of nonthermal electron distribution and dust polarity on nonplanar dust ion-acoustic solitary waves. In: Physical Review E. 80, 2009, p. 037401:1 - 037401:4 [solitary waves, nonthermal electrons, dusty plasma].

  • A. A. Mamun, P. K. Shukla, B. Eliasson: Arbitrary amplitude dust ion-acoustic shock waves in a dusty multi-ion plasma. In: Physics of Plasmas. 16, 2009, p. 114503:1 - 114503:4 [shock waves, multi-ion plasma, dusty plasma].

  • A. A. Mamun, P. K. Shukla: Cylindrical and spherical dust-acoustic shock waves in a strongly coupled dusty plasma. In: New Journal of Physics. 11, 2009, p. 103022:1 - 103022:4 [spherical and cylindrical solitary waves, strongly coupled dusty plasma, dust-acoustic waves].

  • A. A. Mamun, P. K. Shukla: Arbitrary amplitude dust-acoustic solitary waves in a strongly coupled dusty plasma. In: Europhysics Letters. 87, 2009, p. 55001:1 - 55001:4 [arbitrary amplitude waves, dust-acoustic waves, solitary waves, strongly coupled dusty plasma].

  • A. A. Mamun, P. K. Shukla, B. Eliasson: Solitary waves and double layers in a dusty electronegative plasma. In: Physical Review E. 80, 2009, p. 046406:1 - 046406:6 [double layers, solitary waves, dusty electronegative plasma].

  • A. A. Mamun, P. K. Shukla: Nonplanar dust ion-acoustic solitary and shock waves in a dusty plasma with electrons following vortex-like distribution. In: Physics Letters A. 374, 2009, p. 472 - 475 [non-planar geometry, vortex-like electron distribution, solitary and shock waves].

  • A. A. Mamun, K.S. Ashrafi, P.K. Shukla: Effects of polarizartion force and effective dust temperature on dust-acoustic solitary and shock waves. In: Physics Rev. E . 82, 2010, p. 026405.

  • A. A. Mamun, s. Tasnim, P.K. Shukla: Effects of adiabaticity of electrons and negative ions. In: IEEE Trans. Plasma Science. 38, 2010, p. 3098 - 3104.

  • A. A. Mamun, P.K. Shukla: Solitary waves in an ultrarelativistic degenerate dense plasma. In: Phys. Plasmas. 17, 2010, p. 104504.

  • A. A. Mamun, P.K. Shukla: Arbitrary amplitude solitary waves and double layers in an ultra-relativistic degenerate dense dusty plasma. In: Physics Letters A. 374, 2010, p. 4238.

  • A. A. Mamun, K.S. Ashrafi, P.K. Shukla: Time-dependent cylindrical and spherical dust-acoustic solitary and shock waves. In: Europhys. Lett.. 92, 2010, p. 15004.

  • A. A. Mamun, P.K. Shukla: Asymmetric oscillatory expansion of a cylindrical plasma. In: Journal of Plasma Physics. 77, 2011, p. 437.

Mandelis, Prof. Dr. Andreas

University of Toronto, Canada
Field of research: Semiconductor physics
Host: Prof. Dr. Vasilis Ntziachristos Technische Universität München
  • C.-H. Wang , A. Mandelis, J. Tolev, B. Burchard and J. Meijer: H+ ion-implantation energy dependence of electronic transport properties in the MeV range in n-type silicon wafers using frequency-domain photocarrier radiometry. In: Journal of Applied Physics. 101, 2007, p. 123109-1 - 123109-11 [Photo-carrier Radiometry, Ion-implantation, Semiconductors, Transport properties, Non-linear effects ].

  • Jordan Tolev, Andreas Mandelis and Michal Pawlak: Nonlinear Dependence of Photocarrier Radiometry Signals from p-Si Wafers on Optical Excitation Intensity. In: Journal of the Electrochemical Society. 154, 2007, p. H983 - H994 [Photocarrier Radiometry, Nonlinear effects, Si wafers, semiconductor physics].

Marchesoni, Prof. Dr. Fabio

Universita di Camerino, Italy
Field of research: Statistical physics and thermodynamics
Host: Prof. Dr. Peter Hänggi Universität Augsburg
  • Peter Hänggi, Fabio Marchesoni: Artificial Brownian motors: Controlling transport on the nanoscale. In: Reviews of Modern Physics. 81, 2009, p. 387 - 442 [brownian motors, nanodevices].

  • P. Sekhar Burada, Peter Hänggi, Fabio Marchesoni, Gerhard Schmid, Peter Talkner,: Diffusion in confined geometries. In: ChemPhysChem. 10, 2009, p. 45 - 54 [transport theory, Fick-Jacobs diffusion, single file diffusion].

Menyuk, Prof. Dr. Curtis R.

University of Maryland Baltimore County, United States of America
Field of research: Optics
Host: Prof. Dr. Philip St. John Russell Max-Planck-Institut für die Physik des Lichts
  • Curtis R. Menyuk, Shaokang Wang: Spectral Methods for Determining the Stability and Noise Performance of Passively Modelocked Lasers. In: Nanophotonics. 4, 2016, [spectral methods, lasers, frequency combs, stability, noise].

  • Jonas Hammer, P. Hosseini, Curtis R. Menyuk, Phillip St.J. Russell, and Nicolas Y. Joly: Single-shot reconstruction of spectral amplitude and phase in a fiber ring cavity at a 80 MHz repetition rate. In: Optics Letters. 41, 2016, p. 4641 - 4644 [Ultrafast measurements; Phase measurement; Photonic crystal fibers; Instabilities and chaos.].

  • Wenbin He, Meng Pang, Curtis R. Menyuk, Philip St. J. Russell: Sub-100-fs 1.87 GHz Mode-Locked Fiber Laser Using Stretched-Soliton Effect. In: Optica. 3, 2016, p. 1366 - 1372 [Lasers, Modelocking, Optical fibers, Acoustic effects].

Mohapatra, Prof. Dr. Rabindra N.

University of Maryland at College Park, United States of America
Field of research: Particle physics
Host: Prof. Dr. Manfred Lindner Max-Planck-Institut für Kernphysik
  • Rabindra N. Mohapatra and W. Rodejohann: ``Scaling in the neutrino mass matrix,'' . In: Phys.\ Lett.\ B {\bf 644}, 59 (2007) . 644, 2007, p. 59 [Scaling, neutrino mixings].

  • Rabindra N. Mohapatra, A. Blum and W. Rodejohann: ``Inverted Mass Hierarchy from Scaling in the Neutrino Mass Matrix: Low and High Energy Phenomenology,'' . In: Phys.\ Rev.\ D {\bf 76}, 053003 (2007) . D 76, 2007, p. 053003.

  • Rabindra N. Mohapatra: ``Natural Suppression of Proton Decay in Supersymmetric Type III Seesaw Models,'' . In: Phys.\ Lett.\ B {\bf 679}, 382 (2009). 2009.

  • Rabindra N. Mohapatra and A.~Adulpravitchai, M.~Lindner, A.~Merle : ``Radiative Transmission of Lepton Flavor Hierarchies,'' . In: Phys.\ Lett.\ B {\bf 680}, 476 (2009) . 2009.

Moloney, Prof. Dr. Jerome V.

University of Arizona, United States of America
Field of research: Optics
Host: Prof. Dr. Stephan W. Koch Philipps-Universität Marburg
  • A. Thränhardt, C. Bückers, C. Schlichenmaier, S. W. Koch, J. Hader, J. V. Moloney: Microscopic simulation of semiconductor lasers at telecommunication wavelengths. In: Optical and Quantum Electronics. 38, 2007, p. 1005 - 1009.

  • K.S. Lee, C.S. Kim, R.K. Kim, G. Patterson, M. Kolesik, J.V. Moloney, N. Peyghambarian: Dual-wavelength external cavity laser with a sampled grating formed in a silica PLC waveguide for terahertz beat signal generation. In: Applied Physics B, Lasers and Optics . 2007.

  • C. Bueckers, G. Blume, A. Thraenhardt, C. Schlichenmaier, P.J. Klar, G. Weiser, S.W. Koch, J. Hader, JV Moloney, T. J. C. Hosea, S. J. Sweeney, S. R. Johnson, Y-H Zhang: Microscopic electroabsorption line shape analysis for Ga(AsSb)/GaAs heterostructures. In: Journal of Applied Physics. 101, 2007, p. 033118.

  • Li Fan, Mahmoud Fallahi, Jorg Hader , Aramais R Zakharian, Jerome V. Moloney, Wolfgang Stolz, Stephan W. Koch, Robert Bedford, James T. Murray: Linearly polarized dual-wavelength vertical-external-cavity surface-emitting laser. In: Applied Physics Letters. 90, 2007, p. 181124.

  • J. Hader, J. V. Moloney, S. W. Koch: Erratum: “Influence of internal fields on gain and spontaneous emission in InGaN quantum wells. In: Applied Physics Letters. 90, 2007, p. 259901.

  • C. Lange, S. Chatterjee, C. Schlichenmaier, A. Thränhardt, S. W. Koch, W. W. Rühle, J. Hader, J. V. Moloney, G. Khitrova, H. M. Gibbs: Transient gain spectroscopy of (GaIn)As quantum wells: Experiment and microscopic analysis. In: Applied Physics Letters . 90, 2007, p. 251102.

  • Jerome V. Moloney, Jorg Hader, and Stephan .W. Koch: Quantum design of semiconductor active materials: laser and amplifier applications. In: Laser & Photon. Rev. . 1, 2007, p. 24 - 43.

  • Avner Peleg and JeromeV. Moloney: Scintillation reduction by use of multiple Gaussian laser beams with different wavelengths. In: IEEE Photonics Technology Letters. 19, 2007, p. 883.

  • Y. Xie, A. R. Zakharian, J. V. Moloney, and M. Mansuripur: Bloch mode analysis of transmission through periodic slit arrays in finite thickness metallic slabs. In: SPIE Proc.. 6641, 2007, p. 66411S-1.

  • M. Kolesik and J.V. Moloney: Time-Domain Vertical External Cavity Semiconductor Laser Simulation. In: IEEE Journal of Quantum Electronics. 43, 2007, p. 588.

  • M. Kolesik, E.M. Wright, and J.V. Moloney: Supercontinuum and third-harmonic generation accompanying optical filamentation as first-order scattering processes. In: Optics Letters . 32, 2007, p. 2816.

  • J.V. Moloney, J. Hader, and S.W. Koch: Quantum design of semiconductor active materials: Laser and amplifier applications. In: Laser & Photonics Review. 1, 2007, p. 24 - 43.

  • M. Kolesik, D.E. Roskey, and J.V. Moloney: Conditional femtosecond pulse collapse for white-light and plasma delivery to a controlled distance. In: Optics Letters . 32, 2007, p. 2753.

  • D. Faccio, A. Averchi, A. Couairon, M. Kolesik, J.V. Moloney, A. Dubietis, G. Tamosauskas, P. Polesana, A. Piskarskas, P.De Trapini: Spatio-temporal reshaping and x wave dynamics in optical filaments. In: Optics Express. 15, 2007, p. 13077.

  • M. Reichelt, C. Dineen, S.W. Koch, J.V. Moloney: Optical Forces on a Quantum Dot in Metallic Bowtie Structures. In: Photonics Technology Letters, IEEE. 20, 2008, p. 431 - 433.

  • A. Averchi, D. Faccio, R. Berlasso, M. Kolesik, J.V. Moloney, A. Couairon, and P. Di Trapani: Phase Matching with Pulsed Bessel Beams for High Harmonic Generation. In: Phys. Rev. A. 77, 2008, p. 021802.

  • D. Faccio, A. Lotti, M. Kolesik, J.V. Moloney, S. Tzortzakis, A. Couairon, P. Di Trapani: Spontaneous emergence of pulses with constant carrier-envelope phase in femtosecond filamentation. In: Optics Express. 16, 2008, p. 11103.

  • N. Feth, S. Linden, M. W. Klein, M. Decker, F. B. P. Niesler, Y. Zeng, W. Hoyer, J. Liu, S. W. Koch, J. V. Moloney, and M. Wegener: Second-harmonic generation from complementary split-ring resonators. In: Optics Letter. 33, 2008.

  • M. Schafer, W. Hoyer, M. Kira, S. W. Koch, and J. V. Moloney: Influence of dielectric environment on quantum-well luminescence spectra. In: J. Opt. Soc. Am. B . 25, 2008, p. 187.

Odoulov, Prof. Dr. Serguey

, Ukraine
Field of research: Optics
Host: Prof. Gert von Bally Westfälische Wilhelms-Universität Münster
  • Alexander Shumelyuk, Alexander Volkov, Andreas Selinger, Mirco Imlau, and Serguey Odoulov: Frequency degenerate nonlinear light scattering in low-symmetry crystals. In: Optics Letters. 33, 2008, p. 150 - 152 [photorefractive crystals, nonlinear scattering ].

Ohta, Prof. Dr. Takao

, Japan
Field of research: Theoretical solid state / condensed matter physics
Host: Prof. Dr. Gerhard Ertl Universität Bayreuth
  • Takao Ohta, Tesuya Hiraiwa: Viscoelasticity of a Single Semiflixible Polymer Chain. In: Macromolecules. 42, 2009, p. 7553 - 7562.

  • Takahiro Ohkuma and Takao Ohta: Deformable self-propelled particles with a global coupling. In: CHAOS. 20, 2010, p. 023101-1 - 023101-13 [Nonlinear dynamics, self-propelled motion, collective dynamics].

  • Y. Tonosaki, T. Ohta, and V. Zykov: Phase description of nonlinear dissipative waves under spacetime-dependent external forcing. In: Physica D. 239, 2010, p. 1718 - 1722 [Nonlinear dynamics, Pattern formation, Phase dynamics, Nonlinear dissipative waves, External forcing, Hopf bifurcation,].

Petrosyan, Dr. David

Foundation for Research and Technology - HELLAS (FO.R.T.H.), Greece
Field of research: Electron and quantum optics
Host: Prof. Dr. Michael Fleischhauer Technische Universität Kaiserslautern
  • David Petrosyan, Bernd Schmidt, James R. Anglin, Michael Fleischhauer: Quantum liquid of repulsively bound pairs of particles in a lattice. In: Physical Review A. 76, 2007, p. 033606-1 - 033606-7 [Hubbard model, cold atoms, optical lattices, quantum phase transitions ].

  • David Petrosyan: Tunable photonic band gaps with coherently driven atoms in optical lattices. In: Physical Review A. 76, 2007, p. 053823-1 - 053823-10 [cold atoms, optical lattices, photonic band gaps, electromagnetically induced transparency].

  • David Petrosyan, Michael Fleischhauer: Quantum information processing with single photons and atomic ensembles in microwave coplanar waveguide resonators. In: Physical Review Letters. 100, 2008, p. 170501 [Rydberg atoms, hybrid systems, quantum information].

  • David Petrosyan, Johannes Otterbach, Michael Fleischhauer: Electromagnetically induced transparency with Rydberg atoms. In: Physical Review Letters. 107, 2011, p. 213601 [nonlinear and quantum optics].

  • Dominik Muth, David Petrosyan, Michael Fleischhauer : Dynamics and evaporation of defects in Mott-insulating clusters of boson pairs. In: Physical Review A. 85, 2012, p. 013615 [cold atoms, optical lattices, Hubbard model].

  • David Petrosyan, Michael Fleischhauer: Electromagnetically induced transparency and photon-photon interactions with Rydberg atoms. In: Journal of Physics: Conference Series. 350, 2012, p. 012001 [nonlinear and quantum optics].

  • Gershon Kurizki, Patrice Bertet, Yuimaru Kubo, Klaus Mølmer, David Petrosyand, Peter Rabl, Jörg Schmiedmayer: Quantum technologies with hybrid systems. In: PNAS, Proceedings of the National Academy of Sciences. 112, 2015, p. 3866 - 3873 [Quantum optics, quantum information, quantum technologies].

  • David Petrosyan, D. D. Bhaktavatsala Rao, Klaus Mølmer: Filtering single atoms from Rydberg-blockaded mesoscopic ensembles. In: Physical Review A. 91, 2015, p. 043402 [Quantum optics, quantum information, Rydberg atom interactions].

  • Lőrinc Sárkány, József Fortágh, David Petrosyan: Long-range quantum gate via Rydberg states of atoms in a thermal microwave cavity. In: Physical Review A. 92, 2015, p. 030303(R) [Quantum optics, quantum information, hybrid quantum technologies].

  • David Petrosyan, Klaus Mølmer, Michael Fleischhauer: On the adiabatic preparation of spatially-ordered Rydberg excitations of atoms in a one-dimensional optical lattice by laser frequency sweeps. In: Journal of Physics B: Atomic, Molecular and Optical Physics. 49, 2016, p. 084003 [Quantum optics, quantum simulations, Rydberg atoms, cold atoms].

Phaneuf, Prof. Dr. Ronald Arthur

University of Nevada, Reno, United States of America
Field of research: Nuclear physics, atomic physics, molecular physics
Host: Prof. Dr. Alfred Müller Justus-Liebig-Universität Gießen
  • S. W. J. Scully, E. D. Emmons, M. F. Gharaibeh, R. A. Phaneuf, A. L. D. Kilcoyne, A. S. Schlachter, S. Schippers, A. Mueller, H. S. Chakraborty, M. E. Madjet and J. M. Rost: Reply to Comment on "Photoionization of a Volume Plasmon in C60 Ions". In: Physiocal Review Letters. 98, 2007, p. 179602 - 179602 [photoionization, plasmon, giant resonance, fullerene, ion].

  • A. Mueller, S. Schippers, R. A. Phaneuf, M. Habibi, D. Esteves, J. C. Wang, A. L. D. Kilcoyne, A. Aguilar, S. Yang and L. Dunsch: Photoionization of the Endohedral Fullerene Ions Sc3N@C80+ and Ce@C82+ by Synchrotron Radiation. In: Journal of physics: Conference Series. 88, 2007, p. 012038-1 - 012038-7 [photoionization, endohedral, plasmon, giant resonance, fullerene, ion].

Pickett, Prof. Dr. Warren E.

University of California, Davis, United States of America
Field of research: Theoretical solid state / condensed matter physics
Host: Prof. Dr. Jeroen van den van den Brink Leibniz-Institut für Festkörper- und Werkstoffforschung Dresden (IFW) e.V.
  • Warren E. Pickett, Helmut Eschrig: Half metals: from formal theory to real material issues. In: J. Phys.: Condens. Matter. 19, 2007, p. 315203.

Ritter, Dr. Hans Georg

Lawrence Berkeley National Laboratory, United States of America
Field of research: Heavy ion physics
Host: Prof. Dr. Reinhard Stock Johann Wolfgang Goethe-Universität Frankfurt am Main
  • Hans Georg Ritter: The Role of Collective Flow in Heavy-Ion Collisions. In: International Journal of Modern Physics E. 16, 2007, p. 677 - 685 [Collective Effects, Heavy Ion Collisions].

  • STAR Collaboration, B.I. Abelev et al.: Partonic flow and phi-meson production in Au + Au collisions at s(NN)**(1/2) = 200-GeV. In: Physical Review Letters. 99, 2007, p. 112301 [Heavy Ion Collisions, Flow].

  • Hans Georg Ritter: Prospect for an Energy Scan at RHIC. In: POS (CPOD2006). 2007, p. 015 [Heavy Ion Collisions].

Roche, Prof. Dr. Stephan

Universitat Autonoma de Barcelona, Spain
Field of research: Theoretical solid state / condensed matter physics
Host: Prof. Dr. Bernd Büchner Leibniz-Institut für Festkörper- und Werkstoffforschung Dresden (IFW) e.V.
  • Stephan Roche Alessandro Cresti: Edge Disorder dependent Transport Length Scales in Graphene Nanoribbons: From Klein Defects to the Superlattice limit. In: Physical Review B . 79, 2009, p. 23304 - 23308 [graphene, quantum transport, nanoribbons, edge disorder].

  • Stephan Roche Blanca Biel Francois Triozon Xavier Blase: Chemically Induced Mobility Gaps in Graphene Nanoribbons: A Route for Upscaling Device Performances. In: Nano Letters. 9, 2009, p. 2725 - 2729 [Mobility gaps, graphene transistors].

  • Stephan Roche Alejandro Lopez Bezanilla Francois Triozon: Chemical Functionalization Effects on Armchair Graphene Nanoribbon Transport. In: Nano Letters. 9, 2009, p. 2537 - 2541 [graphene nanoribbons, chemical functionalization, charge transport].

  • E. Erdogan, I. Popov, C. G. Rocha, G. Cuniberti, S. Roche, G. Seifert: Engineering carbon chains from mechanically stretched graphene-based materials. In: Physical Review B- Rapid Communication. 83, 2011, p. 041401 [electromechanics in graphene-based materials, simulation, quantum transport ].

  • W. Li, H. Sevincli, G. Cuniberti, S. Roche: Phonon transport in large scale carbon-based disordered materials: Implementation of an efficient order-N and real-space Kubo methodology. In: Physical Review B (Rapid Comm.) . 82, 2010, p. 041410 [Order N Phonon transport methodology, graphene, nanotubes].

  • M. Pötschke, C. G. Rocha, L. E. F. Foa Torres, S. Roche, and G. Cuniberti: Modeling graphene-based nanoelectromechanical devices. In: Physical Review B . 81, 2010, p. 193404 [Graphene-based nanoelectromechanical devices].

  • S. Lakshmi, S. Roche, and G. Cuniberti: Spin valve effect in zigzag graphene nanoribbons by defect engineering. In: Physical Review B . 80, 2009, p. 193404 [Spin valve, graphene].

  • W. Li, H. Sevincli, S. Roche, G. Cuniberti: Efficient linear scaling method for computing the thermal conductivity of disordered materials. In: Physical Review B (Viewpoint) . 84, 2011, p. 155416 [Order N method, Thermal conductance, phonon transport, carbon nanotubes, graphene].

  • T. Kawai, M. Poetschke, Y. Miyamoto, C. G. Rocha, S. Roche, and G. Cuniberti: Mechanically-induced transport switching effect in graphene-based nanojunctions. In: Physical Review B (rapid Communication). 83, 2011, p. 241405-1 - 241405-4 [Novel type of electronic switching effect, driven by the geometrical reconstruction of nanoscale graphene-based junctions].

  • Mark H. Rümmeli, Claudia G. Rocha, Frank Ortmann, Imad Ibrahim, Haldun Sevincli, Felix Börrnert, Jens Kunstmann, Alicja Bachmatiuk, Markus Pötschke, Masashi Shiraishi, M. Meyyappan, Bernd Büchner, Stephan Roche and Gianaurelio Cuniberti : Graphene: Piecing it Together . In: Advanced Materials. 23, 2011, p. 4471 - 4490 [graphene science and applications].

  • C. G. Rocha, M. H. Rümmeli, I. Ibrahim, H. Sevincli, F. Börrnert, J. Kunstmann, A. Bachmatiuk, M. Pötschke, W. Li, S. A. M. Makharza, S. Roche, B. Büchner, and G. Cuniberti : Graphene: Synthesis and Applications. Florida International University, Miami, USA : Taylor and Francis Books-CRC Press, 2011, 15 pp. [Graphene, electronic properties, transport, disorder effects, synthesis].

Schleich, Prof. Dr. Wolfgang

Universität Ulm, Germany
Field of research: Electron and quantum optics

  • J.P. Dahl, S. Varro, A. Wolf, and W.P. Schleich : Wigner functions of s waves. In: Phys. Rev. A. 75, 2007, p. 052107 [Wigner functions, s waves].

  • W. Merkel, H. Mack, M. Freyberger, V. Kozlov, and W.P. Schleich : Coherent transport of single atoms in optical lattices. In: Phys. Rev. A . 75, 2007, p. 033420 [atom optics, optical lattices].

  • M. Mehring, K. Müller, I.Sh. Averbukh, W. Merkel, and W.P. Schleich : NMR experiment factors numbers with Gauss sums. In: Phys. Rev. Lett. . 98, 2007, p. 120502 [NMR, factorization].

  • W. Merkel, H. Mack, E. Lutz, G.G. Paulus, B. Girard, and W.P. Schleich : Chirping a two-photon transition in a multi-state ladder. In: Phys. Rev. A . 76, 2007, p. 023417 [multi-photon transitions].

  • J.P. Dahl, S. Varro, A. Wolf, and W.P. Schleich : Weyl-Wigner correspondence in two space dimensions. In: J. of Mod. Opt. . 54, 2007, p. 2017 - 2032 [Wigner functions].

  • M. Stefanak, W. Merkel, W.P. Schleich, D. Haase, and H. Maier : Factorization with Gauss sums: scaling properties of ghost factors. In: New J. of Phys. . 9, 2007, p. 370 [factorization, number theory].

  • D. Bigourd, B. Chatel, W. P. Schleich, and B. Girard : Factorization of numbers with the temporal Talbot effect: Optical implementation by a sequence of shaped ultrashort pulses. In: Phys. Rev. Lett. . 100, 2008, p. 030202 [factorization, ultrashort pulses].

  • M. Stefanak, D. Haase, W. Merkel, M.S. Zubairy, and W.P. Schleich : Factorization with exponential sums . In: Proceedings of 5th International Symposium on Quantum Theory and Symmetries Special Issue of Journal of Physics A: Math. Theor. . 41, 2008, p. 304024 [factorization, number theory, exponential sums].

  • M. Gilowski, T. Wendrich, T. Müller, Ch. Jentsch, W. Ertmer, E.M. Rasel, and W.P. Schleich : Gauss sum factorization with cold atoms. In: Phys. Rev. Lett. . 100, 2008, p. 030201 [factorization, cold atoms].

  • M. Stefanak, W. Merkel, M. Mehring, and W.P. Schleich, : NMR implementation of exponential sums for integer factorization. In: Contemporary Physics: Proceedings of the International Symposium, National Centre for Physics Islamabad, Pakistan 26-30 March 2007. (Ed. J. Aslam, F. Husain Riazuddin) Singapore: World Scientific, 2008, p. 87 - 94 [factorization, NMR].

  • J.P. Dahl and W.P. Schleich : State Operator, Constants of the Motion, and Wigner Functions: The Two-Dimensional Isotropic Harmonic Oscillator. In: Phys. Rev. A . 79, 2009, p. 024101 [Wigner function in higher dimensions].

  • W. Arendt and W. Schleich : Mathematical Analysis of Evolution, Information, and Complexity. Berlin : Wiley VCH,, 2009, 472 pp. [evolution equations].

Schwimmer, Prof. Dr. Adam

Weizmann Institute of Science, Israel
Field of research: Theoretical Physics
Host: Prof. Dr. Stefan Theisen Max-Planck-Institut für Gravitationsphysik (Albert-Einstein-Institut)
  • Adam Schwimmer and Stefan Theisen: Entanglement Entropy,Trace Anomalies and Holography. In: Nuclear Physics B. 801, 2008, p. 1 - 24.

Shayegan, Prof. Dr. Mansour

Princeton University, United States of America
Field of research: Semiconductor physics
Host: Prof. Dr. Jörg Peter Kotthaus Ludwig-Maximilians-Universität München (LMU)
  • O. Gunawan, E.P. De Poortere and M. Shayegan: AlAs 2D Electrons in an Antidot Lattice: Electron Pinball with Elliptical Fermi Contours. In: Phys. Rev. B. 75, 2007, p. 081304.

  • B. Habib, J. Shabani, E.P. De Poortere, M. Shayegan, and R. Winkler: Tuning of the Spin-orbit Interaction in Two-dimensional GaAs Holes via Strain. In: Phys. Rev. B. 75, 2007, p. 153304.

  • S. Faniel, B. Hackens, A. Vlad, L. Moldovan, C. Gustin, B. Habib, S. Melinte, M. Shaygean, V. Bayot: Dephasing Time of Two-dimensional Holes in GaAs Open Quantum Dots. In: Phys. Rev. B. 75, 2007, p. 193310.

  • B. Habib, E. Tutuc and M. Shayegan: Strong Aharonov-Bohm Oscillations in a GaAs Hole Ring Fabricated via Oxidation Lithography. In: Appl. Phys. Lett.. 90, 2007, p. 152104.

  • S. Faniel, L. Moldovan, A. Vlad, E. Tutuc, N. Bishop, S. Melite, M. Shayegan, and V. Bayot: In-plane Magnetic Field-induced Metal-insulator Transition in (311)A GaAs 2D Hole Systems Probed by Thermopower. In: Phys. Rev. B (Rapid Communications). 76, 2007, p. 161307.

Siegrist, Prof. Dr. Theo

Florida State University, United States of America
Field of research: Solid state physics, solid body physics
Host: Prof. Dr. Matthias Wuttig Rheinisch-Westfälische Technische Hochschule Aachen
  • Theo Siegrist, Peter Jost, Hanno Volker, Michael Woda, Philipp Merkelbach, Carl Schlockermann, Matthias Wuttig: Disorder-induced localization in crystalline phase-change materials. In: Nature Materials. 10, 2011, p. 202 - 208 [Phase-change materials charge localization Anderson-Mott Transition Ge1Sb2Te4 ].

  • T. Siegrist, P. Merkelbach, M. Wuttig: Phase Change Materials: Challenges on the Path to a Universal Storage Device. In: Annual Review of Condensed Matter Physics. 3, 2012, p. 215 - 237 [Phase Change Materials, universal storage devices, phase transitions, crystal structure].

  • K.S. Siegert, F.R.L. :ange, E.R. Sittner, H. Volker, C. Schlockermann, T. Siegrist and M. Wuttig: Impact of vacancy ordering on thermal transport in crystalline phase-change materials. In: Rev. Progress Phys.. 78, 2015, p. 013001 [Phase change materials, lattice thermal conductivity, localization].

Smirnov, Dr. Vladimir A.

Moscow M.V. Lomonosov State University, Russian Federation
Field of research: High energy physics
Host: Prof. Dr. Matthias Staudacher Humboldt-Universität zu Berlin
  • Alexander V. Smirnov and Vladimir A. Smirnov: FIRE4, LiteRed and accompanying tools to solve integration by parts relations. In: Computer Physics Communications. 184 , 2013, p. 2820 - 2827 [Feynman integrals, dimensional regularization, reduction to master integrals].

  • J. Drummond, C. Duhr, B. Eden, P. Heslop, J. Pennington and V. A. Smirnov: Leading singularities and off-shell conformal integrals. In: JHEP. 1308, 2013, p. 133.

  • J. M. Henn, A. V. Smirnov and V. A. Smirnov: Evaluating single-scale and/or non-planar diagrams by differential equations. In: Evaluating single-scale and/or non-planar diagrams by differential equations. 1403, 2014, p. 088.

  • J. M. Henn, K. Melnikov and V. A. Smirnov: Two-loop planar master integrals for the production of off-shell vector bosons in hadron collisions. In: JHEP. 1405, 2014, p. 090.

  • F. Caola, J. M. Henn, K. Melnikov and V. A. Smirnov: Non-planar master integrals for the production of two off-shell vector bosons in collisions of massless partons. In: JHEP. 1409, 2014, p. 043.

  • F. Caola, J. M. Henn, K. Melnikov, A. V. Smirnov and V. A. Smirnov: Two-loop helicity amplitudes for the production of two off-shell electroweak bosons in quark-antiquark collisions. In: JHEP. 1411, 2014, p. 041.

  • F. Caola, J. M. Henn, K. Melnikov, A. V. Smirnov and V. A. Smirnov: Two-loop helicity amplitudes for the production of two off-shell electroweak bosons in gluon fusion. In: JHEP. 1506, 2015, p. 129.

  • P. Marquard, A. V. Smirnov, V. A. Smirnov and M. Steinhauser: Quark Mass Relations to Four-Loop Order in Perturbative QCD. In: Phys. Rev. Lett.. 114, 2015, p. 142002.

  • A. Kurz, T. Liu, P. Marquard, A. V. Smirnov, V. A. Smirnov and M. Steinhauser: Light-by-light-type corrections to the muon anomalous magnetic moment at four-loop order. In: Phys. Rev.. D92, 2015, p. 073019.

  • R. Bonciani, V. Del Duca, H. Frellesvig, J. M. Henn, F. Moriello and V. A. Smirnov: Next-to-leading order QCD corrections to the decay width H → Zγ. In: JHEP. 1508, 2015, p. 108.

Suraud, Prof. Dr.-Ing. Eric

Universite Paul Sabatier (Toulouse III), France
Field of research: Theoretical Physics
Host: Prof. Dr. Paul-Gerhard Reinhard Friedrich-Alexander-Universität Erlangen-Nürnberg
  • Eric Suraud: Les grandes collaborations en <> et le renforcement des relations internationales. In: War and Peace: the Role of Science an Art - Beiträge zur Politischen Wissenschaft, Band 159. (Ed. Soraya Nour Sckell, Olivier Remaud) Berlin: Duncker & Humblot, 2010, p. 175 - 184.

Takezoe, Prof. Dr. Hideo

, Japan
Field of research: Experimental solid / condensed matter physics
Host: Prof. Dr. Ralf Stannarius Otto-von-Guericke-Universität Magdeburg
  • Hideo Takezoe: Optical manipulation of the nematic director field around microspheres covered with an azodendrimer monolayer. In: Optics Express. 22, 2014, p. 20087 - 20093.

  • Hideo Takezoe: Historical Overview of Polar Liquid Crystals. In: Ferroelectrics. 468:1, 2014, p. 1 - 17.

  • Hideo Takezoe, Nattaporn Chattham, Maria-Gabriela Tamba, Ralf Stannarius, Eduard Westphal, Hugo Gallardo, Marko Prehm, Carsten Tschierske, Alexey Eremin: Leaning-type polar smectic-C phase in a freely suspended bent-core liquid crystal film. In: Physical Review, American Physical Society. 91, 2015, p. 030502-1 - 030502-5.

  • Hideo Takezoe, Alexey Eremin, Pemika Hirankittiwong, Nattaporn Chattham, Hajnalka Nadasi, Ralf Stannarius, Jumras Limtrakul, Osamu Haba, Koichiro Yonetake: Optical driven translational and rotational motions of microrod particles in a nematic liquid crystal. In: Proceedings of the National Academy of Sciences (PNAS). 112, 2015, p. 1716 - 1720.

Tel, Prof. Dr. Tamas

Eötvös Lorand University, Hungary
Field of research: Statistical physics and thermodynamics
Host: Prof. Dr. Ulrike Feudel Carl von Ossietzky Universität Oldenburg
  • Anton Daitche and Tamas Tel: Memory Effects are Relevant for Chaotic Advection of Inertial Particles. In: Physical Review Letters . 107, 2011, p. 244501-1 - 244501-5 [spreading of pollutants].

  • Tamas Bodai and Tamas Tel: Annual variability in a conceptual climate model: Snapshot attractors, hysteresis in extreme events, and climate sensitivity. In: Chaos. 22, 2012, p. 023110-1 - 023110-11 [climate dynamics and snapshot attractors].

  • E.G. Altmann, J.S.E. Portela, and T. Tel: Leaking chaotic systems. In: Reviews of Modern Physics. 85, 2013, p. 869 - 918 [leaky and absorbing dynamics, and applications ].

  • T. Bodai, Gy. Karolyi, and T. Tel: Driving a conceptual model climate by different processes: Snapshot attractors and extreme eventsrs and extreme events. In: Physical Review E. 87, 2013, p. 022822-1 - 022822-10 [climate dynamics, extreme events ].

  • G. Drotos, T. Tel, and G. Kovacs: Modulated point-vortex pairs on a rotating sphere: Dynamics and chaotic advection. In: Physical Review E. 87, 2013, p. 063017-1 - 063017-11 [spreading of pollutants on a rotating sphere].

Terasaki, Prof. Dr. Osamu

Stockholm University, Sweden
Field of research: Crystal chemistry
Host: Prof. Dr. Robert Schlögl Fritz-Haber-Institut der Max-Planck-Gesellschaft
  • H. Qiu, Y. Sakamoto, O. Terasaki & S. Che: A 2D-Rectangular p2gg Silica Mesoporous Crystal with Elliptical Mesopores: An Intermediate Phase of Chiral and Lamellar Mesostructures. In: Adv Mater. 20, 2008, p. 425 - 429.

  • H. Qiu, SG. Wang, W. Zhang, K. Sakamoto, O. Terasaki, Y. Inoue & S. Che: Steric and Temperature Control of Enantiopurity of Chiral Mesoporous Silica. In: J. Phys. Chem. C. 112, 2008, p. 1871 - 1877.

Vogelsang, Prof. Dr. Werner

Eberhard Karls Universität Tübingen, Germany
Field of research: Theoretical nuclear physics
Host: Prof. Dr. Klaus Goeke Ruhr-Universität Bochum
  • Matthias Aicher, Andreas Schaefer, Werner Vogelsang: Soft-gluon resummation and the valence parton distribution function of the pion. In: Physical Review Letters. 105, 2010, p. 252003-1 - 252003-4 [Strong interactions, particle physics, structure functions, Quantum Chromodynamics, pion, QCD resummation].

Watts, Prof. Dr. David Christopher

University of Manchester, United Kingdom
Field of research: Physics
Host: Prof. Dr. Klaus D. Jandt Friedrich-Schiller-Universität Jena
  • Karin Kitzmüller, Alexandra Graf, David C Watts, Andreas Schedle, : Setting kinetics and shrinkage of self-adhesive resin cements depend on cure-mode and temperature. In: Dental Materials. 27, 2011, p. 544 - 551.

  • Markus Beyer, Jörg Reichert, Jörg Bossert, Bernd W. Sigusch, David C. Watts, Klaus D. Jandt. : Acids with an equivalent taste lead to different erosion of human dental enamel. In: Dental Materials. 27, 2011.

  • Alvaro Della Bona, Wayne T. Wozniak, David C. Watts: International dental standards - Order out of chaos?. In: Dental materials. 27, 2011, p. 619 - 621.

  • Adilson Y. Furuse, José Mondelli, David C. Watts: Network structures of Bis-GMA/TEGDMA resins differ in DC, shrinkage-strain, hardness and optical properties as a function of reducing agent. In: Dental Materials. 27, 2011, p. 497 - 506.

  • Nadia Ereifej, Flávia Pires Rodrigues, Nick Silikas, David C Watts: Experimental and FE shear-bonding strength at core/veneer interfaces in bilayered ceramics. In: Dental Materials. 27, 2011, p. 590 - 597.

  • Martina Schmid-Schwap, Alexandra Graf, Angela Preinerstorfer, David C. Watts, Eva Piehslinger, Andreas Schedle.: Microleakage after thermocycling of cemented crowns - A meta-analysis. In: Dental Materials. 27, 2011, p. 855 - 869.

  • Muhammad Kaleem, Julian D. Satterthwaite, David C Watts: A method for assessing force/work parameters for stickiness of unset resin-composites. In: Dental Materials. 27, 2011, p. 805 - 810.

  • Larissa Maria Cavalcante, Luis Felipe J. Schneider, Nick Silikas, David C. Watts: Surface integrity of solvent-challenged ormocer-matrix composite. In: Dental Materials. 27, 2011, p. 173 - 179.

  • Yong-jie Wei, Nick Silikas, Zhen-ting Zhang, David C. Watts: Diffusion and concurrent solubility of self-adhering and new resin–matrix composites during water sorption/desorption cycles. In: Dental Materials. 27, 2011, p. 197 - 205.

  • Yong-jie Wei, Nick Silikas, Zhen-ting Zhang, David C. Watts : Hygroscopic dimensional changes of self-adhering and new resin-matrix composites during water sorption/desorption cycles. In: Dental Materials. 27, 2011, p. 259 - 266.

  • P Ausiello, P Franciosa, M Martorelli, David C Watts: Numerical fatigue 3D-FE modelling of indirect composite-restored posterior teeth. In: Dental Materials. 27, 2011, p. 423 - 430.

  • Muhanad Hatamleh, David C Watts: Porosity and colour of maxillofacial silicone elastomer. In: Journal of Prosthodontics. 20, 2011, p. 60 - 66.

  • Muhanad Hatanleh, Flavia Rodrigues, Nick Silikas, David C Watts: 3D-FE Analysis of Soft Liner-Acrylic Interfaces under Shear Loading. In: Dental Materials. 27, 2011, p. 445 - 454.

  • Muhanad Hatamleh, David Christopher Watts: Effects of bond primers on bending strength and bonding of glass fibers in fiber-embedded maxillofacial silicone prostheses. In: Journal of Prosthodontics. 20, 2011, p. 113 - 119.

  • David Christopher Watts: The Quest for Stable Biomimetic Repair of Teeth - Technology of new Resin-Composites. In: Il Dentista Moderno. 2011.

  • Markus Reise, Ralf Wyrwa, Ulrike Müller, Matthias Zylinski, Andrea Völpel, Matthias Schnabelrauch, Albrecht Berg, Klaus D. Jandt, David C. Watts, Bernd W. Sigusch.: Release of metronidazole from electrospun poly(L-lactide-co-D/L-lactide) fibers for local periodontitis treatment. In: Dental Materials. 28, 2012, p. 179-188 [ Electrospun fibers; Polymeric fibers; Metronidazole; Biomaterials; Polylactide; Periodontitis; Drug delivery system; Dental materials].

  • S Garoushi, M Kaleem, A Shinya, PK Vallittu, JD Satterthwaite, DC Watts, LVJ Lassila: Creep of experimental short fiber-reinforced composite resin. In: Dental Materials Journal. 31, 2012, p. 737-741 [Composite resin, Experimental fiber-reinforced composite, Creep].

  • M. Kaleem, K. Masouras, J.D. Satterthwaite, N. Silikas, D.C. Watts. : Viscoelastic stability of resin-composites under static and dynamic loading. In: Dental Materials. 28, 2012, p. e15 - e18 [ Resin composite; Static creep; Dynamic creep; Viscoelastic stability; Cyclic loading; Mechanical properties].

  • Julian D. Satterthwaite, Amit Maisuria, Karin Vogel, David C. Watts: Effect of resin-composite filler particle size and shape on shrinkage-stress. In: Dental Materials. 28, 2012, p. 606 - 614 [ Resin-composite; Filler; Dispersed phase; Shrinkage; Stress].

  • N Waheeb, N Silikas, DC Watts: Initial polishing time affects gloss retention in resin composites. In: American Journal of Dentistry. 25, 2012, p. 303 - 306.

  • Flávia P Rodrigues, Nick Silikas, David C Watts, Rafael Y Ballester.: Finite Element Analysis of Bonded Model Class I 'Restorations' after Shrinkage. In: Dental Materials. 28, 2012, p. 123 - 132 [ Finite element analysis; Shrinkage stress; Resin-composites; Class I; Bonded restorations; C-Factor].

  • Larissa Maria Cavalcante, Luis Felipe Jochims Schneider, Mohammad Hammad, David C Watts, Nick Silikas. : Degradation resistance of Ormocer and dimethacrylate-based matrices with different filler contents. In: Journal of Dentistry. 40, 2012, p. 86 - 90.

  • Oliver Schaefer, David C Watts, Bernd W. Sigusch, Harald Kuepper, Arndt Guentsch.: Marginal and internal fit of pressed lithium disilicate partial crowns in vitro: a three-dimensional analysis of accuracy and reproducibility. In: Dental Materials. 28, 2012, p. 320 - 326 [ Marginal fit; Internal fit; Dental ceramics; Three-dimensional analysis; CAD/CAM].

  • Bernd W. Sigusch, Torsten Pflaum, Andrea Völpel, Kerstin Gretsch, Sandra Hoy, David C. Watts and Klaus D. Jandt. : Resin-composite cytotoxicity varies with shade and irradiance. In: Dental Materials. 28, 2012, p. 312 - 319 [ Composite resin; LCU; Shade; Cell culture; Toxicology].

  • Alvaro Della Bona, David Christopher Watts: Discussing the future of dental materials, processes and products. In: Dental Materials. 28, 2012, p. 312 - 319.

  • Jianying Li, Haiyan Li, Alex S Fok, David Christopher Watts: Numerical evaluation of bulk phase material properties of dental composites using two-phase finite element models. In: Dental Materials. 28, 2012, p. 996 - 1003 [ Dental composites; Filler fraction; Material properties; Finite element analysis].

  • Pietro Ausiello, Pasquale Franciosa, Massimo Martorelli, David Christopher Watts: Effects of thread features in osseo-integrated titanium implants using a statistics-based finite element method. In: Dental Materials. 28, 2012, p. 919 - 927 [ Titanium implants; Dental implants; Thread parameterization; Osseo-integration; FEM modeling; DOE design; Bone-stress distribution].

  • S. El-Safty, N. Silikas, David Christopher Watts: Creep deformation of restorative resin-composites intended for bulk-fill replacement. In: Dental Materials. 28, 2012, p. 928 - 935 [ Resin-composites; Bulk-fill; Viscoelastic time-dependent creep; Water storage].

  • Xiaohong Wu, Feng Deng, Lu Wang, David Christopher Watts: Microtomographic evaluation of bone cell interactions with a silorane-based composite. In: Microscopy Research and Technique, . 75, 2012, p. 1176 - 1184 [ microcomputed tomography; silorane-based composite; bone cement; organ culture].

  • Markus Beyer, Jörg Reichert, Bernd W. Sigusch, David C. Watts, Klaus D. Jandt : Morphology and structure of polymer layers protecting dental enamel against erosion. In: Dental Materials. 28, 2012, p. 1089 - 1097 [ Food-approved polymers; Hydroxyapatite; Human dental erosion; AFM; XPS].

  • Pietro Ausiello, Pasquale Franciosa, Massimo Martorelli, David Christopher Watts: Mechanical behavior of post-restored upper canine teeth: A 3D FE analysis. In: Dental Materials. 27, 2011, p. 1283 - 1292 [ Fiber-post; Dental crown; Canine teeth; Mechanical behavior; Finite element analysis; Stress distribution].

  • MM Hatamleh, GL Polyzois, N. Silikas, David Christopher Watts: Effect of Extra-oral Aging conditionings on Mechanical Properties of Maxillofacial Silicone Elastomer. In: Journal of Prosthodontics. . 20, 2011, p. 439 - 446 [ Maxillofacial silicone elastomer; mechanical properties; outdoor weathering; accelerated aging; sebum; acidic perspiration].

  • MM Hatamleh, C Haylock, J Watson, David Christopher Watts: Survey about attitudes, opinions, and experience of maxillofacial prosthetists and technologists in the UK toward maxillofacial silicone prostheses. In: Journal of Maxillofacial Prosthetics & Technology. 11, 2011, p. 15 - 19.

  • George Eliades, David Christopher Watts, Theodore Eliades: Dental Hard Tissues and Bonding: Interfacial Phenomena and Related Properties. Berlin: Springer-Verlag , 2011, 198 pp. [Adhesion Theory, Adhesives, Dental Enamel, Dentin].

  • Ahmad Alnazzawi, David Christopher Watts: Simultaneous determination of polymerization shrinkage,exotherm and thermal expansion coefficient for dental resin-composites. In: Dental Materials. 28, 2012, p. 1240 - 1249 [Resin composite Shrinkage strain Exotherm Thermal expansion Bonded-disk Polymerization Photopolymerization Light-cure].

  • S. El Safty, N. Silikas, R. Akhtar, David Christopher Watts: Nanoindentation creep versus bulk compressive creep of dental resin-composites. In: Dental Materials. 28, 2012, p. 1171 - 1182 [Nano-creep Bulk-creep Resin-composites Loading and unloading rates].

  • Samy El Safty, Nikolaos Silikas, Riaz Akhtar, David Christopher Watts: Nanomechanical properties of dental resin-composites. In: Dental Materials. 28, 2012, p. 1292 - 1300.

  • David Christopher Watts: Review of: "New Proofs for the Existence of God: Contributions of Contemporary Physics and Philosophy", by Robert J Spitzer. In: Science and Christian Belief. 24(2), 2012, p. 190 - 191 [Cosmology, Creation, BGV Theorem, Teleology, Christian Apologetics].

Wetterich, Prof. Dr. Christof

Ruprecht-Karls-Universität Heidelberg, Germany
Field of research: Particle physics

  • C. Wetterich: Chiral freedom and the scale of weak interactions. In: Mod. Phys. Lett. . A23, 2008, p. 677 - 684.

  • C. Wetterich: Quantization of chiral antisymmetric tensor fields. In: Int. J. Mod. Phys. . A23, 2008, p. 1545 - 1579.

  • C. Wetterich, S. Diehl: Functional integral for ultracold fermionic atoms. In: Nucl. Phys. . B770, 2007, p. 206 - 272.

  • C. Wetterich, H. Gies, J. Jäckel, J. Pawlowski: Do instantons like a colorful background?. In: Eur. Phys. J. . C49, 2007, p. 997 - 1010.

  • C. Wetterich, H.C. Krahl: Functional renormalization group for d-wave superconductivity in Hubbard type models. In: Phys. Lett. . A367, 2007, p. 263 - 267.

  • C. Wetterich, H. Gies, J. Pawlowski, S. Diehl: Flow Equations for the BCS-BEC Crossover. In: Phys. Rev. . A76, 2007, [023033].

  • C.Wetterich, S. Diehl, H. Gies, J. Pawlowski: Renormalization flow and universality for ultracold atoms. In: Phys. Rev. . A76, 2007, [053627].

  • C. Wetterich, T. Dent, S. Stern: Primordial nucleosynthesis as a probe of fundamental physics parameters. In: Phys. Rev. . D76, 2007, [063513].

  • C. Wetterich: Functional renormalization for quantum phase transitions. In: Phys. Rev. . B77, 2008, [064504].

  • C. Wetterich, M. Baldi, D. Amendola: Quintessence cosmologies with a growing matter component. In: Phys. Rev. . D78, 2008, [023015].

  • C. Wetterich: Growing neutrinos and cosmological selection. In: Phys. Lett. . B655, 2007, p. 201 - 208.

  • C. Wetterich: Light fermion masses and chiral freedom. In: arXiv:0709.1102. 2007.

  • C. Wetterich, N. Brouzakis, N. Tetradis: Neutrino lumps in quintessence cosmology. In: Phys. Lett. . B665, 2008, p. 131 - 134.

  • C. Wetterich: Occupation numbers from functional integral. In: Nucl. Phys.. B802, 2008, p. 368 - 404.

  • C. Wetterich, J.-M. Schwind: Chiral tensor fields and spontaneous breaking of Lorentz symmetry. In: Int. J. Mod. Phys. . A23, 2008, p. 4345 - 4359.

  • C. Wetterich, S. Flörchinger: Functional renormalization for Bose-Einstein condensation. In: Phys. Rev.. A77, 2008, [053603].

  • C. Wetterich: Naturalness of exponential cosmon potentials and the cosmological constant problem. In: Phys. Rev. . D77, 2008, [103505].

  • D. Mota, V. Pettorino, G. Robbers, C. Wetterich: Neutrino clustering in growing neutrino quintessence. In: Phys. Lett.. B663, 2008, p. 160 - 164.

  • M. Neubert, T. Krueger, C. Wetterich: Cosmon lumps and horizonless black holes. In: Phys. Lett.. B663, 2008, p. 21 - 25.

  • C. Wetterich: Constraints for warped branes. In: Physical Review . D78, 2008.

  • S. Floerchinger, C. Wetterich: Superfluid Bose gas in two dimensions. In: Physical Review. A79, 2009.

  • C. Wetterich: Dilatation symmetry in higher dimensions and the vanishing of the cosmological constant. In: Physical Review Letters. 102, 2009.

  • S. Floerchinger, M. Scherer, S. Diehl, C. Wetterich: Particle-hole fluctuations in the BCS-BEC crossover. In: Physical Review. D78, 2008.

  • T. Dent, S. Stern, C. Wetterich: Unifying cosmological and recent time variations of fundamental couplings. In: Physical Review . D78, 2008.

  • S. Floerchinger, R. Schmidt, S. Moroz, C. Wetterich: Functional renormalization for trion formation in ultracold fermion gases. In: Physical Review. A79, 2009.

  • C. Wetterich: Quantum entanglement and interference from classical statistics. In: AIP Conference Proceedings. 1232, 2010, p. 175.

  • T. Dent, S. Stern, C. Wetterich: Time variation of fundamental couplings and dynamical dark energy. In: JCAP. 01, 2009, p. 38.

  • C. Wetterich: Probabilistic observables, conditional correlations and quantum mechanics. In: Ann. Phys. (Berlin). 522, 2010, p. 467.

  • C. Wetterich: Emergence of quantum mechanics from classical statistics. In: Journal of Phys. . 174, 2009.

  • S. Moroz, S. Floerchinger, R. Schmidt, C. Wetterich: Efimov effect from functional renormalization. In: Phys. Rev. A79, 2009.

  • R. Schmidt, S. Floerchinger, C. Wetterich: Three body loss in lithium from functional renormalization. In: Phys. Rev. . A79, 2009.

  • T. Dent, S. Stern, C. Wetterich: Competing bounds on the present-day time variation of fundamental constants. In: Phys. Rev. . A79, 2009, [083533].

  • J. Schwindt, C. Wetterich: Asymptotically free four-fermion interactions and electroweak symmetry breaking. In: Phys. Rev. . D81, 2010, [055005].

  • S. Floerchinger, C. Wetterich: Nonperturbative thermodynamics of an interacting Bose gas. In: Phys. Rev. . A79, 2009, [063602].

  • H.C. Krahl, S. Friederich, C. Wetterich: Incommmensurate antiferromagnetic fluctuations in the two-dimensional Hubbard model. In: Phys. Rev. . B80, 2009, [014436].

  • C. Wetterich: Quantum particles from classical statistics. In: Ann. Phys. (Berlin) . 522, 2010, p. 807.

  • S. Floerchinger, C. Wetterich: Exact flow equation for composite operators. In: Phys. Lett. . B680, 2009, p. 371.

  • Y. Ayaita, M. Weber, C. Wetterich: Too few spots in the Cosmic Microwave Background. In: Phys. Rev. . D81, 2010, [023507].

  • C. Wetterich: Quantum mechanics from classical statistics. In: Annals of Phys. . 325, 2010, p. 852.

  • S. Diehl, S. Floerchinger, H. Gies, J. Pawlowski, C. Wetterich: Functional renormalization group approach to the BCS-BEC crossover. In: Ann. Phys. (Berlin) . 522, 2010, p. 615.

  • N. Wintergerst, V. Pettorino, D. Mota, C. Wetterich: Very large scale structures in growing neutrino quintessence. In: Phys. Rev. . D81, 2010, [063525].

  • C. Wetterich: The cosmological constant and higher dimensional dilatation symmetry. In: Phys. Rev. . D81, 2010, [103507].

  • C. Wetterich: Zwitters: particles between quantum and classical. In: Phys. Lett. A376 . A376, 2012, p. 706.

  • M. Shaposhnikov, C. Wetterich: Asymptotic safety of gravity and the Higgs boson mass. In: Phys. Lett. . B683, 2010, p. 196.

  • S. Floerchinger, M. Scherer, C. Wetterich: Modified Fermi-sphere, pairing gap, and critical temperature for the BCS-BEC crossover. In: Phys. Rev. . A81, 2010, [063619].

  • C. Wetterich: Probabilistic time. In: Found. of Physics . 42, 2012, p. 1384 - 1443.

  • C. Wetterich: Spinors in euclidean field theory, complex structures and discrete symmetries . In: Nucl. Phys. B852, 2011, p. 174 - 234.

  • C. Wetterich: Quantum particles from classical probabilities in phase space. In: Int. J. Theor. Phys. . 51, 2012, p. 3236 - 3273.

  • S. Friederich, H.C. Krahl, C. Wetterich: Four-point vertex in the Hubbard model and partial bosonization. In: Phys. Rev. . B81, 2010, [235108].

  • C. Wetterich: Quantum particles from coarse grained classical probabilities in phase space. In: Annals of Phys. . 325, 2010, p. 1359.

  • C. Wetterich: Warping with dilatation symmetry and self-tuning of the cosmological constant. In: Phys. Rev. . D81, 2010, [103508].

  • C. Wetterich: Fermions from classical statistics. In: Annals of Phys.. 325, 2010, p. 2750.

  • V. Pettorino, N. Wintergerst, L. Amendola, C. Wetterich : Neutrino lumps and the Cosmic Microwave Background. In: Phys. Rev. . D82, 2010, [123001].

  • J. Beyer, S. Nurmi, C. Wetterich: Coupled dark energy and dark matter from dilatation anomaly. In: Phys. Rev. . D84, 2011, [023010].

  • N. Brouzakis, V. Pettorino, N. Tetradis, C. Wetterich: Nonlinear matter spectra in growing neutrino quintessence. In: JCAP. 1103, 2011, p. 49.

  • S. Friederich, H.C. Krahl, C. Wetterich: Functional renormalization for spontaneous symmetry breaking in the Hubbard model. In: Phys. Rev. . B83, 2011, [115125].

  • N. Nunes, L. Schrempp, C. Wetterich: Mass freezing in growing neutrino quintessence. In: Phys. Rev. . D83, 2011, [083523].

  • C. Wetterich: Classical probabilities for Majorana and Weyl spinors. In: Annals of Phys. . 326, 2011, p. 2243.

  • I. Boettcher, S. Floerchinger, C.Wetterich: Collective modes for precision measurements on cold trapped gases. In: J. Phys. B: At.Mol.Opt. Phys.. 44, 2011, [235301].

  • M. Baldi, V. Pettorino, L. Amendola, C. Wetterich: Oscillating nonlinear large scale structure in growing neutrino quintessence. In: MNRAS. 418, 2011, p. 214.

  • A. Knochel, C. Wetterich: Theoretical contraints on new generations with and without Quarks and Neutrinos. In: Phys. Lett. . B706, 2012, p. 320.

  • D. Ludwig, S. Floerchinger, S. Moroz, C. Wetterich: Quantum phase transitions in Bose-Fermi mixtures. In: Phys. Rev.. A84, 2011, [033629].

  • C. Wetterich: Lattice spinor gravity. In: Phys. Lett . B704, 2011, p. 612 - 619.

  • C. Wetterich: Lattice diffeomorphism invariance. In: Phys. Rev. . D85, 2012, [104017].

  • C. Wetterich: Where to look for solving the gauge hierarchy problem?. In: Phys. Lett. . B718, 2012, p. 573 - 576.

  • Y. Ayaita, M.Weber, C. Wetterich: Structure Formation and Backreaction in Growing Neutrino Quintessence. In: Phys. Rev.. D85, 2012, [123010].

  • C. Wetterich: Spinor gravity and diffeomorphism symmetry on the lattice. In: Lect. Notes Phys. . 863, 2013, p. 67 - 92.

  • C. Wetterich: Quantum fermions and quantum field theory from classical statistics. In: J. Phys.: Conf. Ser. . 361, 2012, [012031].

  • C. Wetterich: Geometry and symmetries in lattice spinor gravity. In: Annals of Phys. . 327, 2012, p. 2184 - 2244.

  • S. Floerchinger, C. Wetterich: Chemical freeze-out in heavy ion collisions at large baryon densities. In: Nucl. Phys. . A890-891, 2012, p. 11 - 24.

  • C. Wetterich: Universality of geometry. In: Phys. Lett. . B712, 2012, p. 126 - 131.

  • D. Sexty, C. Wetterich: Emergent gravity in two dimensions. In: Nucl. Phys. . B867, 2013, p. 290 - 329.

  • I. Böttcher, S. Diehl, J. Pawlowski, C. Wetterich: Tan contact and universal high momentum behavior of the fermion propagator in the BCS-BEC crossover. In: Phys. Rev. . D87, 2013, [4043519].

  • C.Wetterich: Scalar lattice gauge theory. In: Nucl. Phys. . B876, 2013, p. 147 - 168.

  • D. Schnoerr, I. Boettcher, J. Pawlowski, C. Wetterich: Error estimates and specification parameters for functional renormalization. In: Annals Phys. . 334, 2013, p. 83 - 99.

  • V.Pettorino, L. Amendola, C. Wetterich: How early is early dark energy?. In: Phys. Rev. . D87, 2013, [083009].

  • C. Wetterich: Cosmon inflation. In: Phys. Lett.. B726, 2013, p. 15 - 22.

  • C. Wetterich: A Universe without expansion. In: Dark Universe. 2, 2013, p. 184 - 187.

  • T. Henz, J. M. Pawlowski, A. Rodigast, C. Wetterich: Dilaton Quantum Gravity. In: Phys. Lett. . B727, 2013, p. 298 - 302.

  • C. Wetterich: Linear lattice gauge theory. In: Nucl. Phys.. B884, 2014, p. 44 - 65.

  • C. Wetterich: Variable gravity Universe. In: Phys. Rev. . D89, 2014, [024005].

  • S. Flörchinger, C. Wetterich: Isotropization from Color Field Condensate in heavy ion collisions. In: JHEP. 1403, 2014, p. 121.

  • I. Böttcher, J. M. Pawlowski, C. Wetterich: Critical temperature and superfluid gap of the Unitary Fermi Gas from Functional Renormalization. In: Phys. Rev. . A89, 2014, [053630].

  • C. Wetterich: Hot big bang or slow freeze?. In: Phys. Lett.. B736, 2014, p. 506 - 514.

  • C. Wetterich: Modified gravity and coupled quintessence. In: Lecture Notes in Physics . 892, 2015, p. 57 - 95.

  • C. Wetterich: Eternal Universe. In: Phys. Rev. . D90, 2014, [043520].

  • J. Beyer, C. Wetterich: Small scale structures in coupled scalar field dark matter. In: Phys. Lett. . B738, 2014, p. 418 - 423.

  • C. Wetterich: Inflation, quintessence, and the origin of mass. In: Nucl. Phys. . B897, 2015, p. 111 - 178.

  • I. Boettcher, J. Braun, T. K. Herbst, J. M. Pawlowski, D. Roscher, C. Wetterich: Phase structure of spin-imbalanced unitary Fermi gases. In: Phys. Rev. . A91, 2015, [1013610].

  • I. Boettcher, T. K. Herbst, J. M. Pawlowski, N. Strodthoff, L. von Smekal, C. Wetterich: Sarma phase in relativistic and non-relativistic systems. In: Phys. Lett. . B742, 2015, p. 86 - 93.

  • C. Wetterich: Cosmic fluctuations from quantum effective action. In: Phys. Rev. . D92, 2015, [ 8083507].

  • F. Führer, C. Wetterich: Backreaction in growing neutrino quintessence. In: Phys. Rev. D91, 2015, [12123542].

Zinn-Justin, Prof. Dr. Jean

Commissariat a l'Energie Atomique (CEA), France
Field of research: Theoretical Physics
Host: Prof. Dr. Christof Wetterich Ruprecht-Karls-Universität Heidelberg
  • Ulrich D. Jentschura, Andrey Surzhykov and Jean Zinn-Justin: Unified Treatment of Even and Odd Anharmonic Oscillators of Arbitrary Degree. In: Physical Review Letters . 102, 2009, p. 011601 - 011605 [physics quantum mechanics anharmonic oscillator].

  • Ulrich D. Jentschura, Andrey Surzhykov, Michael Lubasch, Jean Zinn-Justin: Structure, Time Propagation and Dissipative Terms for Resonances. In: Journal of Physics . A41, 2008, p. 095302 - 095317 [physics quantum mechanics resonances].

  • Ulrich D. Jentschura, Andrey Surzhykov, Jean Zinn-Justin: Generalized Nonanalytic Expansions, PT-Symmetry and Large-Order Formulas for Odd Anharmonic Oscillators. In: Sigma. 5, 2009, p. 005 [quantum mechanics PT symmetry large orders anharmonic oscillators].

  • Ulrich D, Andrej Surzhykov, Jean Zinn-Justin: Multi-instantons and exact results III: Unification of even and odd anharmonic oscillators. In: Annals of Physics. 325, 2010, p. 1135 - 1172 [quantum mechanics instantons semi-classical].

  • Ulrich D. Jentschura, Jean Zinn-Justin: Calculation of the characteristic functions of anharmonic oscillators. In: Applied Numerical Mathematics. 60, 2010, p. 1332 - 1341 [quantum mechanics].

Zubairy, Prof. Dr. Muhammad Suhail

Texas A & M University, United States of America
Field of research: Electron and quantum optics
Host: Prof. Dr. Christoph H. Keitel Max-Planck-Institut für Kernphysik
  • M. Kiffner, J. Evers, and M. S. Zubairy: Resonant interferometric lithography beyond the diffraction limit. In: Physical Review Letters. 100, 2008, p. 073602-1 - 073602-4 [Quantum lithography; quantum interferometry; coherent atomic effect].