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Single-shot readout and relaxation of singlet/triplet states in exchange-coupled $^{31}$P electron spins in silicon

Published 28 Feb 2014 in cond-mat.mes-hall and quant-ph | (1402.7148v3)

Abstract: We present the experimental observation of a large exchange coupling $J \approx 300$ $\mu$eV between two ${31}$P electron spin qubits in silicon. The singlet and triplet states of the coupled spins are monitored in real time by a Single-Electron Transistor, which detects ionization from tunnel-rate-dependent processes in the coupled spin system, yielding single-shot readout fidelities above 95%. The triplet to singlet relaxation time $T_1 \approx 4$ ms at zero magnetic field agrees with the theoretical prediction for $J$-coupled ${31}$P dimers in silicon. The time evolution of the 2-electron state populations gives further insight into the valley-orbit eigenstates of the donor dimer, valley selection rules and relaxation rates, and the role of hyperfine interactions. These results pave the way to the realization of 2-qubit quantum logic gates with spins in silicon, and highlight the necessity to adopt gating schemes compatible with weak $J$-coupling strengths.

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