Spin-Blockade Spectroscopy of Si/SiGe Quantum Dots

Authors :: Jones, A. M.
Pritchett, E. J.
Chen, E. H.
Keating, T. E.
Andrews, R. W.
Blumoff, J. Z.
De Lorenzo, L. A.
Eng, K.
Ha, S. D.
Kiselev, A. A.
Meenehan, S. M.
Merkel, S. T.
Wright, J. A.
Edge, L. F.
Ross, R. S.
Rakher, M. T.
Borselli, M. G.
Hunter, A.
Source :: Phys. Rev. Applied 12, 014026 (2019)
Publication Year :: 2018
Abstract: We implement a technique for measuring the singlet-triplet energy splitting responsible for spin-to-charge conversion in semiconductor quantum dots. This method, which requires fast, single-shot charge measurement, reliably extracts an energy in the limits of both large and small splittings. We perform this technique on an undoped, accumulation-mode Si/SiGe triple-quantum dot and find that the measured splitting varies smoothly as a function of confinement gate biases. Not only does this demonstration prove the value of having an $in~situ$ excited-state measurement technique as part of a standard tune-up procedure, it also suggests that in typical Si/SiGe quantum dot devices, spin-blockade can be limited by lateral orbital excitation energy rather than valley splitting.<br />Comment: 18 pages, 9 figures