Abstract:
Machine Hole-spin qubits in semiconductors are a mature platform for quantum technologies [1]. Specifically, the well-advanced fabrication techniques of Si devices, along with the small hyperfine interaction protecting the qubit from dephasing, make Si a very promising material for quantum computing. Moreover, holes in Si present a large spin-orbit coupling, which makes the qubit sensitive to all-electrical manipulation. We investigate the properties of the hole eigenstates in Si quantum dots, obtained from the exact diagonalization of the six-band Luttinger-Kohn Hamiltonian [2]. Indeed, a crucial role is played by the multiband character of the hole state, which induces a significant dependence of the physical properties of the qubit on the dot geometry. This specifically affects its coupling to the external fields and its manipulation properties [3]. In this seminar we are going beyond the qubit picture, where the only relevant states are the ones belonging to the ground doublet. Instead, we aim to show the interesting features displayed by the excited states and their possible use for assisting in the process of qubit encoding and manipulation. In particular, we show that the first excited doublet is characterized by a higher degree of tunability of the band mixing with respect to the ground doublet. This results in Rabi frequencies for the transitions involving the excited states that are one or two orders of magnitude larger than those between the ground states [4,5].
Speaker: Gaia Forghieri is a PhD student at the Doctoral School in Physics and Nano Sciences at the Department of Physical, Computer and Mathematical Sciences of the University of Modena and Reggio Emilia. She has worked on the development of codes for simulations of quantum systems and computationally intensive simulations, using several HPC systems of Cineca and university clusters. She participates in the "IQubits" project in collaboration with the Institute of Nanoscience of the CNR. She has already published 4 articles in international journals.
Host: Prof. Mauro Leoncini