S
Sarang Gopalakrishnan
Researcher at Pennsylvania State University
Publications - 156
Citations - 6651
Sarang Gopalakrishnan is an academic researcher from Pennsylvania State University. The author has contributed to research in topics: Quantum & Quantum entanglement. The author has an hindex of 37, co-authored 126 publications receiving 4766 citations. Previous affiliations of Sarang Gopalakrishnan include Harvard University & College of Staten Island.
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Anomalous Diffusion and Griffiths Effects Near the Many-Body Localization Transition
TL;DR: This work explores the high-temperature dynamics of the disordered, one-dimensional XXZ model near the many-body localization (MBL) transition, focusing on the delocalized (i.e., "metallic") phase, and establishes scaling relations between the associated exponents, assuming a scaling form of the spin-diffusion propagator.
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Many-Body Localization in Dipolar Systems
Norman Y. Yao,Chris Laumann,Sarang Gopalakrishnan,Michael Knap,Markus Müller,Eugene Demler,Mikhail D. Lukin +6 more
TL;DR: This work proposes and analyzes several experimental systems that can be used to observe and probe many-body localized phases, including ultracold polar molecules and solid-state magnetic spin impurities.
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Hydrodynamics of operator spreading and quasiparticle diffusion in interacting integrable systems
TL;DR: In this article, the hydrodynamics of operator spreading in interacting integrable lattice models were studied and an expression for the front-broadening rate was derived for the ''Floquet-Fredrickson-Andersen'' model.
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Probing slow relaxation and many-body localization in two-dimensional quasiperiodic systems
Pranjal Bordia,Pranjal Bordia,Henrik P. Lüschen,Henrik P. Lüschen,Sebastian Scherg,Sebastian Scherg,Sarang Gopalakrishnan,Michael Knap,Ulrich Schneider,Ulrich Schneider,Ulrich Schneider,Immanuel Bloch,Immanuel Bloch +12 more
TL;DR: In this article, a many-body localized phase in a two-dimensional system and how a system transitions between this phase and a normal thermal phase were investigated in one-dimensional systems.
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Probing Slow Relaxation and Many-Body Localization in Two-Dimensional Quasi-Periodic Systems
Pranjal Bordia,Henrik P. Lüschen,Sebastian Scherg,Sarang Gopalakrishnan,Michael Knap,Ulrich Schneider,Immanuel Bloch +6 more
TL;DR: In this article, the authors experimentally explore the relaxation dynamics of an interacting gas of fermionic potassium atoms loaded in a two-dimensional optical lattice with different quasi-periodic potentials along the two directions.