Excitation of a Si/SiGe quantum dot using an on-chip microwave antenna
arXiv:1301.2126 · doi:10.1063/1.4821995
Abstract
We report transport measurements on a Si/SiGe quantum dot subject to microwave excitation via an on-chip antenna. The response shows signatures of photon-assisted tunneling and only a small effect on charge stability. We also explore the use of a d.c. current applied to the antenna for generating tunable, local magnetic field gradients and put bounds on the achievable field gradients, limited by heating of the reservoirs.