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.
Papers
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Correlator convolutional neural networks as an interpretable architecture for image-like quantum matter data.
Cole Miles,Annabelle Bohrdt,Ruihan Wu,Christie S. Chiu,Christie S. Chiu,Muqing Xu,Geoffrey Ji,Markus Greiner,Kilian Q. Weinberger,Eugene Demler,Eun-Ah Kim +10 more
TL;DR: In this article, a neural network based approach is proposed to classify image data in terms of multi-site correlation functions and reveal the role of fourth-order correlations in the Fermi-Hubbard model.
Posted Content
Signatures of bath-induced quantum avalanches in a many-body--localized system
Julian Léonard,Matthew Rispoli,Alexander Lukin,Robert Schittko,Sooshin Kim,Joyce Kwan,Dries Sels,Eugene Demler,Markus Greiner +8 more
TL;DR: In this paper, an interface between a many-body-localized system and a thermal inclusion of variable size is realized, and the authors find evidence for accelerated transport into the localized region, signature of a quantum avalanche.
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Dissipative dynamics of a driven quantum spin coupled to a bath of ultracold fermions.
TL;DR: The dynamics and the steady state of a driven quantum spin coupled to a bath of fermions, which can be realized with a strongly imbalanced mixture of ultracold atoms, is explored using currently available experimental tools.
Journal ArticleDOI
Double light-cone dynamics establish thermal states in integrable 1D Bose gases
TL;DR: In this paper, the Luttinger liquid model is used to study the non-equilibrium dynamics in a quenched pair of one-dimensional Bose gases with density imbalance.
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Ab initio exact diagonalization simulation of the Nagaoka transition in quantum dots
Yao Wang,Juan Pablo Dehollain,Juan Pablo Dehollain,Fang Liu,Uditendu Mukhopadhyay,Mark S. Rudner,Lieven M. K. Vandersypen,Eugene Demler +7 more
TL;DR: In this article, an ab initio exact diagonalization framework was employed to compute the correlated physics of a few electrons in artificial potentials and study the magnetism of the correlated electrons.