Observation of nanoscale hydrodynamics in a strongly interacting dipolar spin ensemble in diamond --- Theory
ORAL
Abstract
Establishing a quantitative connection between the microscopic description of a quantum many-body system and its emergent macroscopic phenomena remains an important open problem. In this talk, we introduce a novel method that combines analytical, numerical, and experimental approaches to address this challenge. Strongly motivated by recent experiments that utilize strongly interacting dipolar spin ensembles in diamond, we present a framework to efficiently describe the spin dynamics. More specifically, starting from a microscopic Hamiltonian description of the spin ensemble, we construct an effective classical description of the spin polarization dynamics that accurately captures the experimental observations. Our method highlights a hybrid approach to study emergent hydrodynamics in strongly interacting quantum systems.
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Presenters
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Francisco Machado
University of California, Berkeley
Authors
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Francisco Machado
University of California, Berkeley
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Chong Zu
University of California, Berkeley
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Bingtian Ye
University of California, Berkeley
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Bryce H Kobrin
University of California, Berkeley
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Thomas Mittiga
University of California, Berkeley
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Satcher Hsieh
University of California, Berkeley
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Prabudhya Bhattacharyya
University of California, Berkeley
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Tim O Hoehn
University of California, Berkeley
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Soonwon Choi
University of California, Berkeley, Physics, University of California, Berkeley
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Christopher Laumann
Boston Univ, Boston University
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Dmitry Budker
University of California, Berkeley
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Norman Yao
University of California, Berkeley, Physics, University of California, Berkeley