Cavity QED modifies DBOC, producing few cm^{-1} shifts in molecular dissociation energies and larger effects in some atoms that reach experimental resolution.
Kennes, and Michael A
2 Pith papers cite this work. Polarity classification is still indexing.
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Cavity engineering increases superfluid weight and shifts the superconducting onset temperature upward in an underdoped YBCO thin film, interpreted via a phase-fluctuating superconductor model.
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Non-adiabatic Effects Induced by Strong Light-Matter Coupling in Cavity QED
Cavity QED modifies DBOC, producing few cm^{-1} shifts in molecular dissociation energies and larger effects in some atoms that reach experimental resolution.
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Cavity-enhanced superconducting response in an underdoped cuprate
Cavity engineering increases superfluid weight and shifts the superconducting onset temperature upward in an underdoped YBCO thin film, interpreted via a phase-fluctuating superconductor model.