TY - JOUR T1 - Double Quantum Dot Floquet Gain Medium JF - Physical Review X Y1 - 2016 A1 - J. Stehlik A1 - Y.-Y. Liu A1 - C. Eichler A1 - T. R. Hartke A1 - X. Mi A1 - Michael Gullans A1 - J. M. Taylor A1 - J. R. Petta AB -

Strongly driving a two-level quantum system with light leads to a ladder of Floquet states separated by the photon energy. Nanoscale quantum devices allow the interplay of confined electrons, phonons, and photons to be studied under strong driving conditions. Here we show that a single electron in a periodically driven DQD functions as a "Floquet gain medium," where population imbalances in the DQD Floquet quasi-energy levels lead to an intricate pattern of gain and loss features in the cavity response. We further measure a large intra-cavity photon number n_c in the absence of a cavity drive field, due to equilibration in the Floquet picture. Our device operates in the absence of a dc current -- one and the same electron is repeatedly driven to the excited state to generate population inversion. These results pave the way to future studies of non-classical light and thermalization of driven quantum systems.

VL - 6 U4 - 041027 UR - http://journals.aps.org/prx/abstract/10.1103/PhysRevX.6.041027 U5 - 10.1103/PhysRevX.6.041027 ER -