Hybrid spin and valley quantum computing with singlet-triplet qubits

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ROHLING, Niklas, Maximilian RUSS, Guido BURKARD, 2014. Hybrid spin and valley quantum computing with singlet-triplet qubits

@unpublished{Rohling2014Hybri-29082, title={Hybrid spin and valley quantum computing with singlet-triplet qubits}, year={2014}, author={Rohling, Niklas and Russ, Maximilian and Burkard, Guido} }

2014-10-07T13:52:08Z Burkard, Guido Burkard, Guido The valley degree of freedom in the electronic band structure of silicon, graphene, and other materials is often considered to be an obstacle for quantum computing based on electron spins in quantum dots. Here we show that control over the valley state opens new possibilities for quantum information processing. We prove that combining qubits encoded in the singlet-triplet subspace of spin and valley states allows for universal quantum computing using a universal two-qubit gate directly provided by the exchange interaction. We show how spin and valley qubits can be separated in order to allow for<br />single-qubit rotations. eng Rohling, Niklas Russ, Maximilian 2014 2014-10-07T13:52:08Z Hybrid spin and valley quantum computing with singlet-triplet qubits Russ, Maximilian Rohling, Niklas

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