Publicaciones Google Scholar de
1980 a
2025
| Título |
Fuente |
Fecha |
| Multipartite entanglement distribution in a topological photonic network |
Quantum 9, 1625 , 2025 |
2025 |
| Hidden topology in flat-band topological insulators: Strong, weak, and square-root topological states |
Physical Review B 111 (15), 155406 , 2025 |
2025 |
| Phonon excitations of Floquet-driven superfluids in a tilted optical lattice |
Physical Review Research 6 (2), 023323 , 2024 |
2024 |
| Spectral statistics of driven Bose-Hubbard models |
Journal of Statistical Mechanics: Theory and Experiment 2024 (6), 063104 , 2024 |
2024 |
| Superfluidity from correlations in driven boson systems |
New Journal of Physics 25 (6), 063006 , 2023 |
2023 |
| Instabilities of interacting matter waves in optical lattices with Floquet driving |
Physical Review Research 5 (3), 033024 , 2023 |
2023 |
| Generating soliton trains through Floquet engineering |
Physical Review A 107 (4), 043310 , 2023 |
2023 |
| Fast quantum transfer mediated by topological domain walls |
Quantum 7, 1043 , 2023 |
2023 |
| Fractals on a benchtop: observing fractal dimension in a resistor network |
The Physics Teacher 60 (6), 410-413 , 2022 |
2022 |
| Expansion of a one-dimensional Bose gas: the role of interactions and kinetic-energy driving |
Journal of Physics B: Atomic, Molecular and Optical Physics 55 (13), 135301 , 2022 |
2022 |
| Topological quantum state transfer in the Creutz ladder |
APS March Meeting Abstracts 2021, Y29. 010 , 2021 |
2021 |
| Riemann zeros from Floquet engineering a trapped-ion qubit |
npj Quantum Information 7 (1), 109 , 2021 |
2021 |
| Tunable zero modes and quantum interferences in flat-band topological insulators |
Quantum 5, 591 , 2021 |
2021 |
| Cat states in a driven superfluid: role of signal shape and switching protocol |
The European Physical Journal Special Topics 230 (4), 1013-1019 , 2021 |
2021 |
| Protected cat states in a driven superfluid boson gas. |
Bulletin of the American Physical Society 66 , 2021 |
2021 |
| Topology and Interactions in the Photonic Creutz and Creutz‐Hubbard Ladders |
Advanced Quantum Technologies, 1900105 , 2020 |
2020 |
| Identifying the Riemann zeros by periodically driving a single qubit |
Physical Review A 101 (4), 043402 , 2020 |
2020 |
| Controlling spin without magnetic fields: The Bloch-Rashba rotator |
Physical Review B 102 (8), 085436 , 2020 |
2020 |
| Inside Front Cover: Topology and Interactions in the Photonic Creutz and Creutz‐Hubbard Ladders (Adv. Quantum Technol. 2/2020) |
Advanced Quantum Technologies 3 (2), 2070023 , 2020 |
2020 |
| Corrigendum: Generation of atypical hopping and interactions by kinetic driving (2018 New J. Phys. 20 073045) |
New Journal of Physics 21 (11), 119501 , 2019 |
2019 |
| Robust cat state from kinetic driving of a boson gas |
APS March Meeting Abstracts 2019, S25. 014 , 2019 |
2019 |
| Protected cat states from kinetic driving of a boson gas |
Physical Review Research 1 (3), 033013 , 2019 |
2019 |
| Relativistic motion of an Airy wave packet in a lattice potential |
Physical Review A 98 (6), 063609 , 2018 |
2018 |
| Many-body quantum chaos and entanglement in a quantum ratchet |
Physical Review Letters 120 (23), 234101 , 2018 |
2018 |
| Generation of atypical hopping and interactions by kinetic driving |
New Journal of Physics 20 (7), 073045 , 2018 |
2018 |
| Generation of atypical hopping and interactions by kinetic driving |
APS March Meeting Abstracts 2018, R27. 013 , 2018 |
2018 |
| Realization of uniform synthetic magnetic fields by periodically shaking an optical square lattice |
APS March Meeting Abstracts 2017, E13. 006 , 2017 |
2017 |
| Sublattice dynamics and quantum state transfer of doublons in two-dimensional lattices |
Physical Review B 95 (9), 094303 , 2017 |
2017 |
| Uniform synthetic magnetic field and effective mass for cold atoms in a shaken optical lattice. |
APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts 2016 … , 2016 |
2016 |
| Long-range doublon transfer in a dimer chain induced by topology and ac fields |
Scientific Reports 6 (1), 22562 , 2016 |
2016 |
| Realization of uniform synthetic magnetic fields by periodically shaking an optical square lattice |
New Journal of Physics 18 (9), 093013 , 2016 |
2016 |
| Finding zeros of the Riemann zeta function by periodic driving of cold atoms |
Physical Review A 91 (6), 063608 , 2015 |
2015 |
| Quantum dot spin cellular automata for realizing a quantum processor |
Semiconductor Science and Technology 30 (10), 105025 , 2015 |
2015 |
| Quantum simulation of correlated-hopping models with fermions in optical lattices |
Physical Review A 89 (1), 013624 , 2014 |
2014 |
| Quantum ratchets, the orbital Josephson effect, and chaos in Bose-Einstein condensates |
APS March Meeting Abstracts 2014, M29. 007 , 2014 |
2014 |
| Generation of uniform synthetic magnetic fields by split driving of an optical lattice |
Physical review A 90 (2), 023636 , 2014 |
2014 |
| Synthetic gauge potentials for cold atoms by shaking |
APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts, M2. 002 , 2014 |
2014 |
| Comments on" Creating artificial magnetic fields for cold atoms by photon-assisted tunneling" |
EPL Association, European Physical Society , 2013 |
2013 |
| Effective Josephson dynamics in resonantly driven Bose–Einstein condensates |
New Journal of Physics 15 (10), 103006 , 2013 |
2013 |
| Orbital Josephson effect and interactions in driven atom condensates on a ring |
New Journal of Physics 14 (7), 075023 , 2012 |
2012 |
| Comment on" Creating artificial magnetic fields for cold atoms by photon-assisted tunneling" by Kolovsky AR |
arXiv preprint arXiv:1212.4384 , 2012 |
2012 |
| Orbital Josephson effect and interactions in driven atom condensates on a ring |
Iop Publishing Ltd , 2012 |
2012 |
| Orbital Josephson effect and interactions in driven atom condensates |
gas] , 2011 |
2011 |
| Ratchet effect in Bose-Einstein Condensates |
|
2011 |
| Directed transport in driven optical lattices by gauge generation |
Physical Review A—Atomic, Molecular, and Optical Physics 84 (2), 023630 , 2011 |
2011 |
| Spin Filtering and Entanglement Swapping through Coherent Evolution of a Single Quantum Dot 080502 |
Physical Review Letters 105 (8) , 2010 |
2010 |
| Perturbative analysis of coherent quantum ratchets in cold atom systems |
arXiv preprint arXiv:1003.5868 , 2010 |
2010 |
| Weakly driven quantum coherent ratchets in cold-atom systems |
Physical Review A—Atomic, Molecular, and Optical Physics 82 (2), 023607 , 2010 |
2010 |
| Coherent control of interacting particles using dynamical and Aharonov-Bohm phases |
Physical Review Letters 105 (8), 086804 , 2010 |
2010 |
| Comment on" Coherent ratchets in driven Bose-Einstein condensates" Reply |
American Physical Society , 2010 |
2010 |
| Spin filtering and entanglement swapping through coherent evolution of a single quantum dot |
American Physical Society , 2010 |
2010 |
| Spin filtering and entanglement swapping through coherent evolution of a single quantum dot |
Physical review letters 105 (8), 080502 , 2010 |
2010 |
| Creffield and Sols Reply |
Physical Review Letters 104 (22), 228902 , 2010 |
2010 |
| Expansion of matter waves in static and driven periodic potentials |
Physical Review A—Atomic, Molecular, and Optical Physics 82 (3), 035601 , 2010 |
2010 |
| Reply to the Comment by Benenti et al |
arXiv preprint arXiv:1001.2028 , 2010 |
2010 |
| Instability and control of a periodically driven Bose-Einstein condensate |
Physical Review A—Atomic, Molecular, and Optical Physics 79 (6), 063612 , 2009 |
2009 |
| Dynamical control of cold bosons using oscillating potentials |
Journal of Physics: Conference Series 150 (3), 032017 , 2009 |
2009 |
| Coherent ratchets in driven Bose-Einstein condensates |
Physical review letters 103 (20), 200601 , 2009 |
2009 |
| Dynamical instability in kicked Bose-Einstein condensates |
Physical Review A—Atomic, Molecular, and Optical Physics 77 (4), 043621 , 2008 |
2008 |
| Evidence for Hexatic Bose Glass in the Mixed Phase of Type-II Superconductors with Material Line Defects |
APS March Meeting Abstracts, J10. 004 , 2008 |
2008 |
| Controlled generation of coherent matter currents using a periodic driving field |
Physical review letters 100 (25), 250402 , 2008 |
2008 |
| Quantum control and entanglement using periodic driving fields |
Physical review letters 99 (11), 110501 , 2007 |
2007 |
| Dynamical instability in kicked Bose-Einstein condensates: Bogoliubov resonances |
arXiv preprint arXiv:0707.1653 , 2007 |
2007 |
| Coherent control of self-trapping of cold bosonic atoms |
Physical Review A—Atomic, Molecular, and Optical Physics 75 (3), 031607 , 2007 |
2007 |
| Chaos in kicked Bose-Einstein condensates: Bogoliubov resonances |
|
2007 |
| Coherent control of a self-trapped Bose-Einstein condensate |
arXiv preprint cond-mat/0609703 , 2006 |
2006 |
| Tuning the Mott transition in a Bose-Einstein condensate by multiple photon absorption |
Physical review letters 96 (21), 210403 , 2006 |
2006 |
| General Physics: Statistical and Quantum Mechanics, Quantum Information, etc.-Tuning the Mott Transition in a Bose-Einstein Condensate by Multiple Photon Absorption |
Physical Review Letters 96 (21), 210403-210600 , 2006 |
2006 |
| Localization-delocalization transition in a system of quantum kicked rotors |
Physical review letters 96 (2), 024103 , 2006 |
2006 |
| Theory of -kicked quantum rotors |
Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 73 (6 … , 2006 |
2006 |
| Does the Vortex Glass Exist in Two Dimensions? |
APS March Meeting Abstracts, A12. 008 , 2005 |
2005 |
| Phonon softening and dispersion in the 1D Holstein model of spinless fermions |
The European Physical Journal B-Condensed Matter and Complex Systems 44 (2 … , 2005 |
2005 |
| Chaotic quantum ratchets and filters with cold atoms in optical lattices: Analysis using Floquet states |
Physical Review A—Atomic, Molecular, and Optical Physics 72 (1), 013403 , 2005 |
2005 |
| Dynamical control of electronic states in AC‐driven quantum dots |
AIP Conference Proceedings 772 (1), 805-806 , 2005 |
2005 |
| -Kicked Quantum Rotors: Localization and `Critical' Statistics |
arXiv preprint physics/0504074 , 2005 |
2005 |
| Erratum: Location of crossings in the Floquet spectrum of a driven two-level system [Phys. Rev. B 67 , 165301 (2003)] |
Physical Review B 69 (16), 169902 , 2004 |
2004 |
| Erratum: Location of crossings in the Floquet spectrum of a driven two-level system (vol B 67, art no 165301, 2003) |
American Physical Society , 2004 |
2004 |
| Location of crossings in the Floquet spectrum of a driven two-level system (vol B 67, art no 165301, 2003) |
PHYSICAL REVIEW B 69 (16) , 2004 |
2004 |
| Coherence and localization in AC-driven quantum dots |
Microelectronics journal 35 (1), 19-22 , 2004 |
2004 |
| Localization of two interacting electrons in quantum dot arrays driven by an ac field |
Physical review B 69 (16), 165312 , 2004 |
2004 |
| Phase dependence of localization in the driven two-level model |
Europhysics Letters 66 (5), 631 , 2004 |
2004 |
| Spin-polarized pumping in a double quantum dot |
Nanotechnology 14 (2), 152 , 2003 |
2003 |
| Pumping of spin-polarized electrons in AC-driven artificial molecules |
APS March Meeting Abstracts 2003, V24. 014 , 2003 |
2003 |
| Optimum pinning of the vortex lattice in extremely type-II layered superconductors |
Physical Review B 67 (14), 144510 , 2003 |
2003 |
| Location of crossings in the Floquet spectrum of a driven two-level system |
Physical Review B 67 (16), 165301 , 2003 |
2003 |
| Electron dynamics in AC-driven quantum dots |
Anderson Localization and Its Ramifications: Disorder, Phase Coherence and … , 2003 |
2003 |
| H=∑[t (cocjo+ Hc)+ V ninj]+[Û niſnil+ Ei (t) ni].(9) |
Anderson Localization and Its Ramifications: Disorder, Phase Coherence, and … , 2003 |
2003 |
| Dynamical control of correlated states in a square quantum dot |
Physical Review B 66 (23), 235303 , 2002 |
2002 |
| ac-driven localization in a two-electron quantum dot molecule |
Physical Review B 65 (11), 113304-113304 , 2002 |
2002 |
| Spin and charge Tomonaga-Luttinger parameters inquantum wires |
Europhysics Letters 53 (2), 221 , 2001 |
2001 |
| Magnetic field dependence of the low-energy spectrum of a two-electron quantum dot |
Physical Review B 62 (11), 7249 , 2000 |
2000 |
| Semiconductors II: Surfaces, interfaces, microstructures, and related topics-Magnetic field dependence of the low-energy spectrum of a two-electron quantum dot |
Physical Review-Section B-Condensed Matter 62 (11), 7249-7256 , 2000 |
2000 |
| 1 Large Wigner Molecules and Quantum Dots |
Statistical and Dynamical Aspects of Mesoscopic Systems: Proceedings of the … , 2000 |
2000 |
| Interacting Electrons in polynomial quantum dots |
Physical Review B (Condensed Matter and Materials Physics) 59, 10719-10724 , 1999 |
1999 |
| Interacting electrons in polygonal quantum dots |
Physical Review B 59 (16), 10719 , 1999 |
1999 |
| Magnetic properties of a two-electron quantum dot |
arXiv preprint cond-mat/9912428 , 1999 |
1999 |
| Analytic continuation of Matsubara Green's functions |
Nuclear Physics B-Proceedings Supplements 63 (1-3), 655-657 , 1998 |
1998 |
| The application of numerical techniques to models of strongly correlated electrons |
|
1997 |
| Correlation Effects in Models of High Temperature Superconductors |
|
1997 |
| Frequency-dependent spin susceptibility in the two-dimensional Hubbard model |
Journal of Physics: Condensed Matter 9 (18), L267 , 1997 |
1997 |
| Dynamics of single-particle and collective excitations from Quantum Monte Carlo |
Czechoslovak Journal of Physics 46 (Suppl 5), 2655-2656 , 1996 |
1996 |
| Spectral weight function for the half-filled Hubbard model: a singular value decomposition approach |
Physical review letters 75 (3), 517 , 1995 |
1995 |
| Spectral weight function for the half-filled Hubbard model |
|
1995 |
