Gate reflectometry for probing charge and spin states in linear Si MOS split-gate arrays
/ Authors
L. Hutin, B. Bertrand, E. Chanrion, H. Bohuslavskyi, Fabio Ansaloni, Tsung-Yeh Yang, J. Michniewicz, D. Niegemann, C. Spence, T. Lundberg
and 13 more authors
A. Chatterjee, A. Crippa, Jing Li, R. Maurand, X. Jehl, M. Sanquer, M. Gonzalez-Zalba, F. Kuemmeth, Y. Niquet, S. D. Franceschi, M. Urdampilleta, T. Meunier, M. Vinet
/ Abstract
We fabricated linear arrangements of multiple split-gate devices along an SOI mesa, thus forming a 2×N array of individually controllable Si quantum dots (QDs) with nearest neighbor coupling. We implemented two different gate reflectometry-based readout schemes to either probe spin-dependent charge movements by a coupled electrometer with single-shot precision, or directly sense a spin-dependent quantum capacitance. These results bear significance for fast, high-fidelity single-shot readout of large arrays of foundry-compatible Si MOS spin qubits.
Journal: 2019 IEEE International Electron Devices Meeting (IEDM)