Hole-spin qubits in germanium beyond the single-particle regime

Abstract: The intense simulation activity on hole-spin qubits in Ge has focused so far on singly occupied quantum dots. Here, we theoretically investigate three-hole qubits in germanium and show that their performances compare well with those of their single-hole counterparts, both in strained and unstrained systems. In particular, enhancements of the gating times by two orders of magnitude are obtained in slightly elongated quantum dots. We show that, depending on the confinement anisotropy, such an enhancement is driven either by the occupation of excited spin-orbitals (Pauli principle), or by a Coulomb-induced charge rearrangement.