Vortices in a trapped dilute Bose-Einstein condensate AL Fetter, AA Svidzinsky Journal of Physics: condensed matter 13 (12), R135, 2001 | 796 | 2001 |
Quantum heat engine power can be increased by noise-induced coherence MO Scully, KR Chapin, KE Dorfman, MB Kim, A Svidzinsky Proceedings of the National Academy of Sciences 108 (37), 15097-15100, 2011 | 484 | 2011 |
The super of superradiance MO Scully, AA Svidzinsky Science 325 (5947), 1510-1511, 2009 | 325 | 2009 |
Cooperative spontaneous emission of atoms: Many-body eigenstates, the effect of virtual Lamb shift processes, and analogy with radiation of classical oscillators AA Svidzinsky, JT Chang, MO Scully Physical Review A—Atomic, Molecular, and Optical Physics 81 (5), 053821, 2010 | 281 | 2010 |
Stability of a vortex in a trapped Bose-Einstein condensate AA Svidzinsky, AL Fetter Physical review letters 84 (26), 5919, 2000 | 213 | 2000 |
Dynamical Evolution of Correlated Spontaneous Emission of a Single Photon <?format ?>from a Uniformly Excited Cloud of Atoms AA Svidzinsky, JT Chang, MO Scully Physical review letters 100 (16), 160504, 2008 | 196 | 2008 |
Dynamics of a vortex in a trapped Bose-Einstein condensate AA Svidzinsky, AL Fetter Physical Review A 62 (6), 063617, 2000 | 188 | 2000 |
Quasiparticle bound states and low-temperature peaks of the conductance of NIS junctionsin d-wave superconductors YS Barash, AA Svidzinsky, H Burkhardt Physical Review B 55 (22), 15282, 1997 | 175 | 1997 |
Cooperative spontaneous emission as a many-body eigenvalue problem A Svidzinsky, JT Chang Physical Review A—Atomic, Molecular, and Optical Physics 77 (4), 043833, 2008 | 139 | 2008 |
Normal modes of a vortex in a trapped Bose-Einstein condensate AA Svidzinsky, AL Fetter Physical Review A 58 (4), 3168, 1998 | 132 | 1998 |
Anomalous modes drive vortex dynamics in confined Bose-Einstein condensates DL Feder, AA Svidzinsky, AL Fetter, CW Clark Physical Review Letters 86 (4), 564, 2001 | 130 | 2001 |
Fluctuations in ideal and interacting Bose–Einstein condensates: From the laser phase transition analogy to squeezed states and Bogoliubov quasiparticles VV Kocharovsky, VV Kocharovsky, M Holthaus, CHR Ooi, A Svidzinsky, ... Advances in Atomic, Molecular, and Optical Physics 53, 291-411, 2006 | 105 | 2006 |
The Lamb shift—yesterday, today, and tomorrow MO Scully, AA Svidzinsky Science 328 (5983), 1239-1241, 2010 | 104 | 2010 |
Quantum amplification by superradiant emission of radiation AA Svidzinsky, L Yuan, MO Scully Physical Review X 3 (4), 041001, 2013 | 86 | 2013 |
Enhancing photovoltaic power by Fano-induced coherence AA Svidzinsky, KE Dorfman, MO Scully Physical Review A—Atomic, Molecular, and Optical Physics 84 (5), 053818, 2011 | 79 | 2011 |
Quantum optics approach to radiation from atoms falling into a black hole MO Scully, S Fulling, DM Lee, DN Page, WP Schleich, AA Svidzinsky Proceedings of the National Academy of Sciences 115 (32), 8131-8136, 2018 | 74 | 2018 |
Correlated spontaneous emission on the Danube EA Sete, AA Svidzinsky, H Eleuch, Z Yang, RD Nevels, MO Scully Journal of Modern Optics 57 (14-15), 1311-1330, 2010 | 65 | 2010 |
Normal modes and stability of phase-separated trapped Bose-Einstein condensates AA Svidzinsky, ST Chui Physical Review A 68 (1), 013612, 2003 | 61 | 2003 |
Using quantum coherence to generate gain in the XUV and X-ray: gain-swept superradiance and lasing without inversion EA Sete, AA Svidzinsky, YV Rostovtsev, H Eleuch, PK Jha, S Suckewer, ... IEEE Journal of Selected Topics in Quantum Electronics 18 (1), 541-553, 2011 | 60 | 2011 |
Evolution of collective N atom states in single photon superradiance: Effect of virtual Lamb shift processes AA Svidzinsky, MO Scully Optics Communications 282 (14), 2894-2897, 2009 | 58 | 2009 |