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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Cavity magnon-polaritons in cuprate parent compounds
Jonathan B. Curtis,Andrey Grankin,Nicholas R. Poniatowski,Victor Galitski,Prineha Narang,Eugene Demler +5 more
TL;DR: In this article, the authors proposed a scheme for coupling Terahertz resonators to the antiferromagnetic fluctuations in a cuprate parent compound, which are believed to provide the glue for Cooper pairs in the superconducting phase.
Journal Article
Time-domain anyon interferometry in Kitaev honeycomb spin liquids and beyond
TL;DR: In this article, ancillary quantum spins communicate via time-dependent tunneling of energy into and out of the spin liquid's chiral Majorana edge state to reveal the edge-state velocity and, in suitable geometries, detect individual non-Abelian anyons and emergent fermions via a time-domain counterpart of quantum-Hall anyon interferometry.
Posted Content
Full counting statistics of interference experiments between interacting one dimensional Bose liquids
TL;DR: In this paper, interference experiments for a pair of independent one-dimensional condensates of interacting bosonic atoms at zero temperature were analyzed and connections between interference experiments in cold atoms and a variety of statistical models ranging from stochastic growth models to two dimensional quantum gravity were made.
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Reply to comment by S.-K. Yip cond-mat/0611426
TL;DR: In this article, the authors respond to S.-K. Yip's criticism of their work on the classification of spinor condensates, emphasizing that the phases he mentions have been addressed in their paper cond-mat/0611230.
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Generating Coherent Phonon Waves in Narrow-Band Materials: A Twisted Bilayer Graphene Phaser.
TL;DR: In this paper , the authors proposed a lasing mechanism relying on the slow-electron bands to produce a coherent beam of acoustic phonons, which can then be used to produce terahertz electromagnetic radiation.