E
Eugene Demler
Researcher at Harvard University
Publications - 556
Citations - 37871
Eugene Demler is an academic researcher from Harvard University. The author has contributed to research in topics: Ultracold atom & Quantum. The author has an hindex of 88, co-authored 521 publications receiving 31670 citations. Previous affiliations of Eugene Demler include Kavli Institute for Theoretical Physics & University of Maryland, College Park.
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The spontaneous symmetry breaking in Ta2NiSe5 is structural in nature.
Edoardo Baldini,Alfred Zong,Dongsun Choi,Changmin Lee,Marios H. Michael,Lukas Windgaetter,Igor Mazin,Simone Latini,Doron Azoury,B. Q. Lv,Anshul Kogar,Yifan Su,Yao Wang,Yang C. Lu,T. Takayama,Hidenori Takagi,Andrew J. Millis,Angel Rubio,Eugene Demler,Nuh Gedik +19 more
TL;DR: In this paper , the authors used an ultrashort laser pulse to quench the broken symmetry phase of a transition metal chalcogenide and found that the spontaneous symmetry breaking in Ta2NiSe5 is mostly of structural character, hampering the possibility to realize quasi-dissipationless energy transport.
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Quantum heat waves in a one-dimensional condensate
TL;DR: In this paper, the dynamics of phase relaxation between a pair of one-dimensional condensates created by a bi-directional, supersonic ''unzipping'' of a finite single condensate was studied.
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Probing competing and intertwined orders with resonant inelastic x-ray scattering in the hole-doped cuprates
TL;DR: In this article, indirect resonant inelastic x-ray scattering (RIXS) is studied in systems with itinerant electrons, accounting for the attraction between valence electrons and the positively-charged core hole exactly.
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Competition between Triplet Superconductivity and Antiferromagnetism in Quasi One-Dimensional Electron Systems
TL;DR: In this article, the SO(4) symmetry was shown to be valid even when interchain hopping is strong enough to turn the system into a strongly anisotropic Fermi liquid.
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Entanglement and entropy production in coupled single-mode Bose-Einstein condensates
TL;DR: In this paper, the authors investigated the time evolution of the entanglement entropy of coupled single-mode Bose-Einstein condensates in a double-well potential at $T = 0$ temperature by combining numerical results with analytical approximations.