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• W3102654797 abstract "Microwave cavities have been widely used to investigate the behavior of closed few-level systems. Here, we show that they also represent a powerful probe for the dynamics of charge transfer between a discrete electronic level and fermionic continua. We have combined experiment and theory for a carbon nanotube quantum dot coupled to normal metal and superconducting contacts. In equilibrium conditions, where our device behaves as an effective quantum dot-normal metal junction, we approach a universal photon dissipation regime governed by a quantum charge relaxation effect. We observe how photon dissipation is modified when the dot admittance turns from capacitive to inductive. When the fermionic reservoirs are voltage biased, the dot can even cause photon emission due to inelastic tunneling to/from a Bardeen-Cooper-Schrieffer peak in the density of states of the superconducting contact. We can model these numerous effects quantitatively in terms of the charge susceptibility of the quantum dot circuit. This validates an approach that could be used to study a wide class of mesoscopic QED devices." @default.
• W3102654797 created "2020-11-23" @default.
• W3102654797 creator A5009685075 @default.
• W3102654797 creator A5017073415 @default.
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• W3102654797 creator A5028880143 @default.
• W3102654797 creator A5038344643 @default.
• W3102654797 creator A5066338333 @default.
• W3102654797 date "2016-05-09" @default.
• W3102654797 modified "2023-10-11" @default.
• W3102654797 title "Cavity Photons as a Probe for Charge Relaxation Resistance and Photon Emission in a Quantum Dot Coupled to Normal and Superconducting Continua" @default.
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• W3102654797 doi "https://doi.org/10.1103/physrevx.6.021014" @default.
• W3102654797 hasPublicationYear "2016" @default.
• W3102654797 type Work @default.

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