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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Optics and interferometry with atoms and molecules
TL;DR: The development of wave optics for light brought many new insights into our understanding of physics, driven by fundamental experiments like the ones by Young, Fizeau, Michelson-Morley and others as mentioned in this paper.
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Relaxation and Prethermalization in an Isolated Quantum System
Michael Gring,Maximilian Kuhnert,Tim Langen,Takuya Kitagawa,Bernhard Rauer,M. Schreitl,Igor Mazets,Igor Mazets,D. Adu Smith,Eugene Demler,Jörg Schmiedmayer +10 more
TL;DR: Measurements of full quantum mechanical probability distributions of matter-wave interference are used to study the relaxation dynamics of a coherently split one-dimensional Bose gas and obtained comprehensive information about the dynamical states of the system.
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Quantum technologies with hybrid systems
Gershon Kurizki,Patrice Bertet,Yuimaru Kubo,Klaus Mølmer,David Petrosyan,David Petrosyan,Peter Rabl,Jörg Schmiedmayer +7 more
TL;DR: Some of the driving theoretical ideas and first experimental realizations of hybrid quantum systems and the opportunities and challenges they present are reviewed and offers a glance at the near- and long-term perspectives of this fascinating and rapidly expanding field.
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Matter-wave interferometry in a double well on an atom chip
Thorsten Schumm,Thorsten Schumm,Sebastian Hofferberth,L. M. Andersson,S. Wildermuth,S. Groth,S. Groth,Israel Bar-Joseph,Jörg Schmiedmayer,Peter Krüger +9 more
TL;DR: In this paper, an integrated interferometer based on a simple coherent matter-wave beam splitter constructed on an atom chip is presented, where the authors demonstrate the splitting of Bose-Einstein condensates into two clouds separated by distances ranging from 3 to 80μm.
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Non-equilibrium coherence dynamics in one-dimensional bose gases
Sebastian Hofferberth,Sebastian Hofferberth,Igor Lesanovsky,B. Fischer,Thorsten Schumm,Jörg Schmiedmayer,Jörg Schmiedmayer +6 more
TL;DR: The experiments studying coherence dynamics show that 1D Bose gases are ideally suited for investigating one-dimensional systems, such as superconductors, quantum Hall systems, superfluid helium and spin systems.