Abstract
In recent years, hole-spin qubits based on semiconductor quantum dots have advanced at a rapid pace. We first review the main potential advantages of these hole-spin qubits with respect to their electron-spin counterparts and give a general theoretical framework describing them. The basic features of spin-orbit coupling and hyperfine interaction in the valence band are discussed, together with consequences on coherence and spin manipulation. In the second part of the article, we provide a survey of experimental realizations, which spans a relatively broad spectrum of devices based on GaAs, Si and Si/Ge heterostructures. We conclude with a brief outlook.
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CITATION STYLE
Fang, Y., Philippopoulos, P., Culcer, D., Coish, W. A., & Chesi, S. (2023, March 1). Recent advances in hole-spin qubits. Materials for Quantum Technology. Institute of Physics. https://doi.org/10.1088/2633-4356/acb87e
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