J
Jörg Schmiedmayer
Researcher at Vienna University of Technology
Publications - 358
Citations - 21391
Jörg Schmiedmayer is an academic researcher from Vienna University of Technology. The author has contributed to research in topics: Quantum & Ultracold atom. The author has an hindex of 72, co-authored 344 publications receiving 19122 citations. Previous affiliations of Jörg Schmiedmayer include Rowland Institute for Science & University of Innsbruck.
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Journal ArticleDOI
Detecting One-Dimensional Dipolar Bosonic Crystal Orders via Full Distribution Functions
Budhaditya Chatterjee,Camille Lévêque,Camille Lévêque,Jörg Schmiedmayer,Axel U. J. Lode,Axel U. J. Lode,Axel U. J. Lode +6 more
TL;DR: The ground states of a few dipolar bosons in optical lattices with incommensurate filling are explored and the emergent state diagram is constructed as a function of the dipolar interaction strength and the lattice depth.
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Characterizing two-particle entanglement in a double-well potential
TL;DR: In this article, the authors consider two distinguishable atoms trapped in a double-well potential and propose a method for experimentally quantifying the entanglement between these atoms and probing a violation of Bell's inequality.
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Trapping polar molecules with a charged wire
TL;DR: In this paper, the interaction of a small polar molecule with the electric field produced by a charged wire was considered and it was shown that such molecules, if rotationally cold, can perform stable orbital motion around the wire.
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High-fidelity entanglement via molecular dissociation in integrated atom optics
Bo Zhao,Zeng-Bing Chen,Zeng-Bing Chen,Jian-Wei Pan,Jian-Wei Pan,Jörg Schmiedmayer,Jörg Schmiedmayer,Alessio Recati,Grigory E. Astrakharchik,Tommaso Calarco +9 more
TL;DR: In this article, high-fidelity entanglement of neutral cold atoms can be achieved by combining several already available techniques such as the creation or dissociation of neutral diatomic molecules, manipulating atoms with microfabricated structures (atom chips), and detecting single atoms with almost 100% efficiency.
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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.