Háskóli ÍslandsUniversity of IcelandAbdullah, Nzar2020-02-172020-02-172019-12Abdullah, N.R., 2019. Rabi-resonant and intraband transitions in a multilevel quantum dot system controlled by the cavity-photon reservoir and the electron-photon coupling. Results in Physics, 15, pp.Results in Physics, December 2019, Vol.15.2211-3797https://hdl.handle.net/20.500.11815/1535Publisher's version (útgefin grein).The transport properties of a wire-dot system coupled to a quantized single photon with linear polarization in a 3D-cavity is theoretically studied using a quantum master equation. The system is also coupled to a photon reservoir, environment. We interplay between the electron-photon coupling, gγ, and the cavity-reservoir coupling, κ, in three cases: κ<gγ, κ=gγ, and κ>gγ. The current peaks due to intraband transitions between the Rabi-resonant states are formed when the electron-photon coupling is dominant, κ<gγ. The broadening of the current peaks depends on the photon polarization and the geometry of the resonant states. It is remarkable that a current plateau is found when κ≥gγ in which the cavity-reservoir is dominant. In this case, the intraband transitions are diminished and the current peaks are not seen.102686eninfo:eu-repo/semantics/openAccessCavity-QEDElectro-optical effectsQuantum dotQuantum master equationQuantum transportSkammtafræðiSkammtaljósfræðiinfo:eu-repo/semantics/articleResults in Physics10.1016/j.rinp.2019.102686