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systems, e.g., average Hamiltonian theory, Floquet theory. Demonstrated skills in simulating the properties and non-equilibrium dynamics of quantum many-body systems using realistic physical parameters, e.g
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, quantum many-body physics, spin dynamics, quantum simulation, quantum optimal control, quantum optics, atomic physics. Required Skills: PhD in a field of research related to experimental quantum physics
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, protein structure, dynamic trajectory data, and/or small molecule/chemical structures would be desirable. Demonstrated ability to work independently and in a team environment, contribute in multiple
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contribute to the collaborative TQT research community. Principal Investigator: David G. Cory Project: Quantum dynamics of cavity interactions with spin ensembles The project involves both theory and
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: Theoretical projects to support experimental solid-state quantum simulators, which investigate platform dynamics many-body dynamics and topological phases in condensed matter and particle physics domains