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Computational Quantum Many-Body Physics Group
Our group develops theory and advanced simulations
to understand strongly correlated quantum many-body systems far from equilibrium.
We investigate how correlations, entanglement, and collective behavior emerge in
quantum materials and nanoscale quantum devices,
bridging condensed matter physics with emerging quantum technologies.
Using cutting-edge numerics and analytical methods, we advance predictive many-body simulations and uncover the microscopic mechanisms governing complex nonequilibrium quantum phenomena.
We are part of the Department of Physics & Astronomy at the University of Georgia and affiliated with the
Center for Simulational Physics and the Quantum Networks Training and Research Alliance in the Southeast (QuaNTRASE).
Research
Our research activities fall broadly into four major directions:
Simulation & Theory for Fundamental Quantum Effects
Simulation & Theory for Fundamental Quantum Effects
Quantum Materials
Quantum Materials
Nanoscale Physics
Nanoscale Physics
Quantum Computing &
Quantum Technology
Quantum Computing &
Quantum Technology
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