Single-photon pump by Cooper-pair splitting
Abstract
Hybrid quantum dot-oscillator systems have become attractive platforms to inspect quantum coherence effects at the nanoscale. Here, we investigate a Cooper-pair splitter setup consisting of two quantum dots, each linearly coupled to a local resonator. The latter can be realized either by a microwave cavity or a nanomechanical resonator. Focusing on the subgap regime, we demonstrate that cross-Andreev reflection, through which Cooper pairs are split into both dots, can efficiently cool down simultaneously both resonators into their ground state. Moreover, we show that a nonlocal heat transfer between the two resonators is activated when opportune resonance conditions are matched. The proposed scheme can act as a heat-pump device with potential applications in heat control and cooling of mesoscopic quantum resonators.
Cite
@article{arxiv.1907.04308,
title = {Single-photon pump by Cooper-pair splitting},
author = {Mattia Mantovani and Wolfgang Belzig and Gianluca Rastelli and Robert Hussein},
journal= {arXiv preprint arXiv:1907.04308},
year = {2019}
}
Comments
9 pages (including Appendix), 3 figures; added Journal ref