A method for determining the Zeeman splitting of a spin qubit via Rabi-driven tunneling

Abstract

We show that resonant driving between the spin up and spin down states of an electron spin-qubit in a quantum dot reduces the occupancy of the dot through leakage to an appropriately tuned lead. A nearby charge sensor measuring the occupancy of the dot should be able to detect the narrow resonant condition upon sweeping the driving frequency. The presence of interactions with noisy and thermal environments such as leads are an inherent part of creating and manipulating quantum information processing systems. This work is an example of how to incorporate methods from the ``open quantum systems'' perspective into descriptions of quantum devices. The method used here captures the coherent dynamics of the Rabi driving on the spin state of an electron tunneling into a lead, and yields full equations of motion for the interaction-picture density matrix with on- or off-resonance driving

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