The heavy-holes in Ge/GeSi heterostructures show highly anisotropic gyromagnetic response with in-plane g-factors gx,y∗≲0.3 and out-of-plane g-factor gz∗≳10. As a consequence, Rabi hot spots and dephasing sweet lines are extremely sharp and call for a careful alignment of the magnetic field in Ge spin qubit devices. We investigate how the g-factors can be engineered by strains. We show that uniaxial strains can raise in-plane g-factors above unity while leaving gz∗ essentially constant. We discuss how the etching of an elongated mesa in a strained buffer can actually induce uniaxial (but inhomogeneous) strains in the heterostructure. This broadens the operational magnetic field range and enables spin manipulation by shuttling holes between neighboring dots with different g-factors.
@article{arxiv.2407.19854,
title = {Strain engineering in Ge/GeSi spin qubits heterostructures},
author = {Lorenzo Mauro and Esteban A. Rodríguez-Mena and Biel Martinez and Yann-Michel Niquet},
journal= {arXiv preprint arXiv:2407.19854},
year = {2025}
}