Jeudi 2 mars à 9h30,
Salle Rémy Lemaire, K223
Orateur : Romain Maurand (INAC)
"A CMOS silicon hole spin qubit"
We report recent progress towards solid-state qubits based on fully-depleted silicon-on-insulator (FDSOI) technology. We discuss an approach where qubits, the elementary bits of quantum information, are encoded in the spin degree of freedom of gate-defined quantum dots in silicon nanowire devices. We present experimental results on electric-field-mediated qubit manipulation induced by microwave pulses applied to the confining gates. In the case of hole-spin qubits, we demonstrate full two-axis qubit control with Rabi frequencies exceeding 80 MHz associated with an inhomogeneous dephasing time T2* 270ns. Finally we will focus on recent results demonstrating that the electrical qubit manipulation can be theoretically explained by g-tensor modulation.