@article{43195, abstract = {{We propose an entanglement classification for symmetric quantum states based on their diagonal matrix-product-state (MPS) representation. The proposed classification, which preserves the stochastic local operation assisted with classical communication (SLOCC) criterion, relates entanglement families to the interaction length of Hamiltonians. In this manner, we establish a connection between entanglement classification and condensed matter models from a quantum information perspective. Moreover, we introduce a scalable nesting property for the proposed entanglement classification, in which the families for N parties carry over to the N + 1 case. Finally, using techniques from algebraic geometry, we prove that the minimal nontrivial interaction length n for any symmetric state is bounded by .}}, author = {{Sanz, M. and Egusquiza, I.L. and Candia, R. Di and Saberi, H. and Lamata, L. and Solano, E.}}, journal = {{Scientific Reports}}, title = {{{Entanglement classification with matrix product states}}}, doi = {{10.1038/srep30188}}, volume = {{6}}, year = {{2016}}, } @inproceedings{43892, abstract = {{The discovery of Airy waves, in the context of solutions to the linear Schrödinger equation [1], inspired extensive research for self-accelerating waves in optical settings [2-6]. Fascinating self-accelerating, self-healing light beams propagating along the bending trajectories can manifest themself in the spatial and the temporal domains and are promising for a large variety of potential applications.}}, author = {{Meier, Torsten and Driben, R. and Konotop, V.V.}}, booktitle = {{European Conference on Lasers and Electro-Optics - European Quantum Electronics Conference}}, isbn = {{978-1-4673-7475-0}}, location = {{Munich, Germany}}, publisher = {{IEEE}}, title = {{{Vectorial self-accelerating beams}}}, year = {{2015}}, } @article{13935, abstract = {{Recently, a new class of nonlinear systems was introduced, in which the self-trapping of fundamental and vortical localized modes in space of dimension D is supported by cubic self-repulsion with a strength growing as a function of the distance from the center, r, at any rate faster that rD. These systems support robust 2D and 3D modes which either do not exist or are unstable in other nonlinear systems. Here we demonstrate a possibility to create solitary vortices in this setting by applying a phase-imprinting torque to the ground state. Initially, a strong torque completely destroys the ground state. However, contrary to usual systems, where the destruction is irreversible, the present ones demonstrate a rapid restabilization and the creation of one or several shifted vortices orbiting the center. For the sake of comparison, we show analytically that, in the linear system with a 3D trapping potential, the action of a torque on the ground state is inefficient and creates only even-vorticity states with a small probability.}}, author = {{Driben, Rodislav and Meier, Torsten and Malomed, Boris A.}}, issn = {{2045-2322}}, journal = {{Scientific Reports}}, title = {{{Creation of vortices by torque in multidimensional media with inhomogeneous defocusing nonlinearity}}}, doi = {{10.1038/srep09420}}, volume = {{5}}, year = {{2015}}, } @article{22944, abstract = {{Recently, a new class of nonlinear systems was introduced, in which the self-trapping of fundamental and vortical localized modes in space of dimension D is supported by cubic self-repulsion with a strength growing as a function of the distance from the center, r, at any rate faster that rD. These systems support robust 2D and 3D modes which either do not exist or are unstable in other nonlinear systems. Here we demonstrate a possibility to create solitary vortices in this setting by applying a phase-imprinting torque to the ground state. Initially, a strong torque completely destroys the ground state. However, contrary to usual systems, where the destruction is irreversible, the present ones demonstrate a rapid restabilization and the creation of one or several shifted vortices orbiting the center. For the sake of comparison, we show analytically that, in the linear system with a 3D trapping potential, the action of a torque on the ground state is inefficient and creates only even-vorticity states with a small probability.}}, author = {{Driben, Rodislav and Meier, Torsten and Malomed, Boris A.}}, issn = {{2045-2322}}, journal = {{Scientific Reports}}, title = {{{Creation of vortices by torque in multidimensional media with inhomogeneous defocusing nonlinearity}}}, doi = {{10.1038/srep09420}}, volume = {{5}}, year = {{2015}}, } @article{43896, abstract = {{It is demonstrated that a two-component Bose-Einstein condensate (BEC) with all-repulsive inter-atomic interactions loaded into a radially symmetric harmonic trap supports robust non-coaxial vortices with approximately orthogonal vortex lines in each of the components. These cross vortices are excited from the linear modes by a sudden switch-on of the nonlinearity (via Feshbach resonance) and are characterized by persistent dynamical regimes of precession with nutation, resembling the motion of a rigid body. The obtained dynamics can be understood qualitatively on the basis of a simple mechanical model.}}, author = {{Meier, Torsten and Driben, R. and Konotop, V.V.}}, journal = {{arXiv preprint arXiv:1505.04113}}, title = {{{Non-coaxial vortices in two-component Bose-Einstein condensates: Persistent precession and nutation}}}, doi = {{10.48550/arXiv.1505.04113}}, year = {{2015}}, } @article{13926, abstract = {{We predict a variety of composite quiescent and spinning two- and three-dimensional (2D and 3D) self-trapped modes in media with a repulsive nonlinearity whose local strength grows from center to periphery. These are 2D dipoles and quadrupoles, and 3D octupoles, as well as vortex–antivortex pairs and quadruplets. Unlike other multidimensional models, where such complex bound states either do not exist or are subject to strong instabilities, these modes are remarkably robust in the present setting. The results are obtained by means of numerical methods and analytically, using the Thomas–Fermi approximation. The predicted states may be realized in optical and matter-wave media with controllable cubic nonlinearities}}, author = {{Driben, Rodislav and Dror, Nir and Malomed, Boris A and Meier, Torsten}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Multipoles and vortex multiplets in multidimensional media with inhomogeneous defocusing nonlinearity}}}, doi = {{10.1088/1367-2630/17/8/083043}}, volume = {{17}}, year = {{2015}}, } @article{13932, abstract = {{We predict a variety of composite quiescent and spinning two- and three-dimensional (2D and 3D) self-trapped modes in media with a repulsive nonlinearity whose local strength grows from center to periphery. These are 2D dipoles and quadrupoles, and 3D octupoles, as well as vortex–antivortex pairs and quadruplets. Unlike other multidimensional models, where such complex bound states either do not exist or are subject to strong instabilities, these modes are remarkably robust in the present setting. The results are obtained by means of numerical methods and analytically, using the Thomas–Fermi approximation. The predicted states may be realized in optical and matter-wave media with controllable cubic nonlinearities}}, author = {{Driben, Rodislav and Dror, Nir and Malomed, Boris A and Meier, Torsten}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Multipoles and vortex multiplets in multidimensional media with inhomogeneous defocusing nonlinearity}}}, doi = {{10.1088/1367-2630/17/8/083043}}, volume = {{17}}, year = {{2015}}, } @article{22948, abstract = {{We predict a variety of composite quiescent and spinning two- and three-dimensional (2D and 3D) self-trapped modes in media with a repulsive nonlinearity whose local strength grows from center to periphery. These are 2D dipoles and quadrupoles, and 3D octupoles, as well as vortex–antivortex pairs and quadruplets. Unlike other multidimensional models, where such complex bound states either do not exist or are subject to strong instabilities, these modes are remarkably robust in the present setting. The results are obtained by means of numerical methods and analytically, using the Thomas–Fermi approximation. The predicted states may be realized in optical and matter-wave media with controllable cubic nonlinearities}}, author = {{Driben, Rodislav and Dror, Nir and Malomed, Boris A. and Meier, Torsten}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, title = {{{Multipoles and vortex multiplets in multidimensional media with inhomogeneous defocusing nonlinearity}}}, doi = {{10.1088/1367-2630/17/8/083043}}, volume = {{17}}, year = {{2015}}, } @inproceedings{13927, author = {{Lange, C. and Schubert, O. and Hohenleutner, M. and Langer, F. and Baierl, S. and Maag, T. and Urbanek, B. and Edwards, E. R. J. and Woltersdorf, G. and Bougeard, D. and Huttner, U. and Golde, D. and Meier, Torsten and Kira, M. and Koch, S. W. and Huber, R.}}, booktitle = {{Nonlinear Frequency Generation and Conversion: Materials, Devices, and Applications XIV}}, editor = {{Vodopyanov, Konstantin L.}}, publisher = {{SPIE}}, title = {{{Sub-cycle control of multi-THz high-harmonic generation and all-coherent charge transport in bulk semiconductors}}}, doi = {{10.1117/12.2085101}}, volume = {{9347}}, year = {{2015}}, } @inproceedings{13933, author = {{Lange, C. and Schubert, O. and Hohenleutner, M. and Langer, F. and Baierl, S. and Maag, T. and Urbanek, B. and Edwards, E. R. J. and Woltersdorf, G. and Bougeard, D. and Huttner, U. and Golde, D. and Meier, Torsten and Kira, M. and Koch, S. W. and Huber, R.}}, booktitle = {{Nonlinear Frequency Generation and Conversion: Materials, Devices, and Applications XIV}}, editor = {{Vodopyanov, Konstantin L.}}, publisher = {{SPIE}}, title = {{{Sub-cycle control of multi-THz high-harmonic generation and all-coherent charge transport in bulk semiconductors}}}, doi = {{10.1117/12.2085101}}, volume = {{9347}}, year = {{2015}}, } @inproceedings{22949, author = {{Lange, C. and Schubert, O. and Hohenleutner, M. and Langer, F. and Baierl, S. and Maag, T. and Urbanek, B. and Edwards, E. R. J. and Woltersdorf, G. and Bougeard, D. and Huttner, U. and Golde, D. and Meier, Torsten and Kira, M. and Koch, S. W. and Huber, R.}}, booktitle = {{Nonlinear Frequency Generation and Conversion: Materials, Devices, and Applications XIV}}, editor = {{Vodopyanov, Konstantin L.}}, publisher = {{SPIE}}, title = {{{Sub-cycle control of multi-THz high-harmonic generation and all-coherent charge transport in bulk semiconductors}}}, doi = {{10.1117/12.2085101}}, volume = {{9347}}, year = {{2015}}, } @inproceedings{22950, author = {{Podzimski, Reinold and Duc, Huynh T. and Meier, Torsten}}, booktitle = {{SPIE Proceedings Vol. 9361: Ultrafast Phenomena and Nanophotonics XIX}}, editor = {{Betz, Markus and Elezzabi, Abdulhakem Y. and Tsen, Kong-Thon}}, publisher = {{SPIE}}, title = {{{Time-domain calculations of shift currents in bulk GaAs}}}, doi = {{10.1117/12.2078123}}, volume = {{9361}}, year = {{2015}}, } @inproceedings{13934, author = {{Podzimski, Reinold and Duc, Huynh T. and Meier, Torsten}}, booktitle = {{Ultrafast Phenomena and Nanophotonics XIX}}, editor = {{Betz, Markus and Elezzabi, Abdulhakem Y. and Tsen, Kong-Thon}}, publisher = {{SPIE}}, title = {{{Time-domain calculations of shift currents in bulk GaAs}}}, doi = {{10.1117/12.2078123}}, volume = {{9361}}, year = {{2015}}, } @inproceedings{13928, author = {{Podzimski, Reinold and Duc, Huynh T. and Meier, Torsten}}, booktitle = {{Ultrafast Phenomena and Nanophotonics XIX}}, editor = {{Betz, Markus and Elezzabi, Abdulhakem Y. and Tsen, Kong-Thon}}, publisher = {{SPIE}}, title = {{{Time-domain calculations of shift currents in bulk GaAs}}}, doi = {{10.1117/12.2078123}}, volume = {{9361}}, year = {{2015}}, } @inproceedings{22945, author = {{Podzimski, Reinold and Duc, Huynh T. and Meier, Torsten}}, booktitle = {{Ultrafast Phenomena and Nanophotonics XIX}}, editor = {{Betz, Markus and Elezzabi, Abdulhakem Y. and Tsen, Kong-Thon}}, publisher = {{SPIE}}, title = {{{Time-domain calculations of shift currents in bulk GaAs}}}, doi = {{10.1117/12.2078123}}, volume = {{9361}}, year = {{2015}}, } @article{26333, author = {{Sperling, Jan and Bohmann, M. and Vogel, W. and Harder, G. and Brecht, Benjamin and Ansari, V. and Silberhorn, Christine}}, issn = {{0031-9007}}, journal = {{Physical Review Letters}}, title = {{{Uncovering Quantum Correlations with Time-Multiplexed Click Detection}}}, doi = {{10.1103/physrevlett.115.023601}}, year = {{2015}}, } @article{22947, author = {{Oreshnikov, I. and Driben, R. and Yulin, A. V.}}, issn = {{0146-9592}}, journal = {{Optics Letters}}, title = {{{Interaction of high-order solitons with external dispersive waves}}}, doi = {{10.1364/ol.40.005554}}, year = {{2015}}, } @article{43197, abstract = {{The effect of mutual interaction between second-order soliton and dispersive waves (DWs) is investigated. It is predicted analytically and confirmed numerically that DWs (both transmitted and reflected components) become polychromatic after interaction with the soliton. Collision with DWs of considerable intensity can lead to acceleration/deceleration and central frequency shift of the soliton, while still preserving the soliton’s oscillating structure. Two second-order solitons with resonant DWs trapped between them can form an effective solitonic cavity with “flat” or “concave mirrors,” depending on the intensity of the input.}}, author = {{Meier, Torsten and Oreshnikov, I. and Driben, R. and Yulin, A.V.}}, journal = {{Optics Letters}}, number = {{23}}, pages = {{5554--5557}}, title = {{{Interaction of high-order solitons with external dispersive waves}}}, doi = {{10.1364/OL.40.005554}}, volume = {{40}}, year = {{2015}}, } @article{10030, abstract = {{The vibrational properties of stoichiometric LiNbO3 are analyzed within density-functional perturbation theory in order to obtain the complete phonon dispersion of the material. The phonon density of states of the ferroelectric (paraelectric) phase shows two (one) distinct band gaps separating the high-frequency (~800 cm−1) optical branches from the continuum of acoustic and lower optical phonon states. This result leads to specific heat capacites in close agreement with experimental measurements in the range 0–350 K and a Debye temperature of 574 K. The calculated zero-point renormalization of the electronic Kohn–Sham eigenvalues reveals a strong dependence on the phonon wave vectors, especially near Γ. Integrated over all phonon modes, our results indicate a vibrational correction of the electronic band gap of 0.41 eV at 0 K, which is in excellent agreement with the extrapolated temperature-dependent measurements.}}, author = {{Friedrich, Michael and Riefer, Arthur and Sanna, Simone and Schmidt, Wolf Gero and Schindlmayr, Arno}}, issn = {{1361-648X}}, journal = {{Journal of Physics: Condensed Matter}}, number = {{38}}, publisher = {{IOP Publishing}}, title = {{{Phonon dispersion and zero-point renormalization of LiNbO3 from density-functional perturbation theory}}}, doi = {{10.1088/0953-8984/27/38/385402}}, volume = {{27}}, year = {{2015}}, } @article{13493, author = {{Müllegger, Stefan and Rauls, Eva and Gerstmann, Uwe and Tebi, Stefano and Serrano, Giulia and Wiespointner-Baumgarthuber, Stefan and Schmidt, Wolf Gero and Koch, Reinhold}}, issn = {{1098-0121}}, journal = {{Physical Review B}}, number = {{22}}, title = {{{Mechanism for nuclear and electron spin excitation by radio frequency current}}}, doi = {{10.1103/physrevb.92.220418}}, volume = {{92}}, year = {{2015}}, }