Mesoscopic admittance of a double quantum dot
arXiv:1011.0386 · doi:10.1103/PhysRevB.83.121311
Abstract
We calculate the mesoscopic admittance $G(Ï)$ of a double quantum dot (DQD),which can be measured directly using microwave techniques. This quantity reveals spectroscopic information on the DQD and is also directly sensitive to a Pauli spin blockade effect. We then discuss the problem of a DQD coupled to a high quality photonic resonator. When the photon correlation functions can be developed along a random-phase-approximation-like scheme, the response of the resonator gives an access to $G(Ï)$.