Paul M. Goldbart
Georgia Institute of Technology
205 Papers
705 Citations
Paul M. Goldbart is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Superconductivity & Phase transition. The author has an hindex of 38, co-authored 201 publications. Previous affiliations of Paul M. Goldbart include University of Illinois at Urbana–Champaign & University of Colorado Boulder.
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Papers
Geometric measure of entanglement and applications to bipartite and multipartite quantum states
Tzu-Chieh Wei,Paul M. Goldbart +1 more
TL;DR: In this article, the degree to which a pure quantum state is entangled can be characterized by the distance or angle to the nearest unentangled state, where the distance is defined as the distance from the point of view of the nearest neighbor.
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Maximal entanglement versus entropy for mixed quantum states
TL;DR: In this article, the authors show that the form of the maximally entangled mixed states can vary with the combination of entanglement and mixedness measures chosen, and that for certain combinations, the forms can change discontinuously at a specific value of the entropy, along the way determining the states that, for a given value of entropy, achieve maximal violation of Bell's inequality.
Observation of Half-Height Magnetization Steps in Sr2RuO4
Joonho Jang,David George Ferguson,Victor Vakaryuk,Victor Vakaryuk,Raffi Budakian,S. B. Chung,Paul M. Goldbart,Yoshiteru Maeno +7 more
TL;DR: Cantilever magnetometry measurements performed on mesoscopic samples of Sr2RuO4, a spin-triplet superconductor, show steps in the magnetization with half the height of the ones between integer fluxoid states, consistent with the existence of half-quantum vortices in superconducting Sr2 RuO4.
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Berry's phase and persistent charge and spin currents in textured mesoscopic rings.
TL;DR: Berry's Phase and Persistent Charge and Spin Currents in Textured Mesoscopic Rings
285
Emergent crystallinity and frustration with Bose–Einstein condensates in multimode cavities
TL;DR: In this article, it is shown that the spontaneous emergence and dynamics of crystal lattices can be realized using Bose-Einstein condensates coupled to multimode optical cavities.
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