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Hyperfine interaction induced decoherence of electron spins in quantum dots

2006; American Physical Society; Volume: 74; Issue: 20 Linguagem: Inglês

10.1103/physrevb.74.205313

1550-235X

Wenxian Zhang, V. V. Dobrovitski, K. A. Al-Hassanieh, Elbio Dagotto, B. N. Harmon,

Semiconductor materials and devices

We investigate in detail, using both analytical and numerical tools, the decoherence of electron spins in quantum dots (QDs) coupled to a bath of nuclear spins in magnetic fields or with various initial bath polarizations, focusing on the longitudinal relaxation in low and moderate field and polarization regimes. An increase of the initial polarization of nuclear-spin bath has the same effect on the decoherence process as an increase of the external magnetic field, namely, the decoherence dynamics changes from smooth decay to damped oscillations. This change can be observed experimentally for a single QD and for a double-QD setup. Our results indicate that substantial increase of the decoherence time requires very large bath polarizations, and the use of other methods (dynamical decoupling or control of the nuclear spins distribution) may be more practical for suppressing decoherence of QD-based qubits.