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Bibliographia Humboldtiana Index

Bibliographia Humboldtiana

III. Publications by Research Awardees in 2013

Physics

Akhmediev, Prof. Dr. Nail

Australian National University, Australia
Field of research: Optics
Host: Prof. Dr. Helmut R. Brand Universität Bayreuth
  • 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].

  • 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].

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)
  • 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.

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].

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
  • 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.

  • 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.

Buividovich, Dr. Pavel

Universität Regensburg, Germany
Field of research: Theoretical Physics
Host: Prof. Dr. Andreas Schäfer Universität Regensburg
  • 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].

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.

Henneaux, Prof. Dr. Marc

Universite Libre de Bruxelles, Belgium
Field of research: Theoretical Physics
Host: Prof. Dr. Viatcheslav Mukhanov Ludwig-Maximilians-Universität München (LMU)
  • 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].

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, 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, 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].

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.

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
  • 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].

Wetterich, Prof. Dr. Christof

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

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

  • 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.