Relative motion between two Dirac plates with nonlocal interaction induces vacuum excitations and dissipative forces with a velocity threshold via perturbative effective action.
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A perspective article surveying Floquet nonadiabatic dynamics methods and their applications to electron transfer, quantum transport, carrier dynamics, and multicolor engineering in light-driven systems.
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Motion-driven quantum dissipation in an open electronic system with nonlocal interaction
Relative motion between two Dirac plates with nonlocal interaction induces vacuum excitations and dissipative forces with a velocity threshold via perturbative effective action.
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Floquet Nonadiabatic Dynamics for Light-Matter Interactions: Recent Advances and Emerging Opportunities
A perspective article surveying Floquet nonadiabatic dynamics methods and their applications to electron transfer, quantum transport, carrier dynamics, and multicolor engineering in light-driven systems.