5 years ago

Coherence properties of shallow donor qubits in ZnO.

Xiayu Linpeng, Y. Kozuka, Cameron Johnson, Maria L. K. Viitaniemi, M. Kawasaki, Kai-Mei C. Fu, Aswin Vishnuradhan

We measure the electron coherence properties of donors in ZnO. Using all-optical spin control, we find a longitudinal relaxation time T$_1$ exceeding 100 ms, an inhomogeneous dephasing time T$_2^*$ of $17\pm2$ ns, and a Hahn spin-echo time T$_2$ of $50\pm13~\mu$s. The magnitude of T$_2^*$ is consistent with the inhomogeneity of the nuclear hyperfine field in natural ZnO. Possible mechanisms limiting T$_2$ include instantaneous diffusion and nuclear spin diffusion (spectral diffusion). These results are comparable to the phosphorous donor system in natural silicon, suggesting that with isotope and chemical purification long qubit coherence times can be obtained for donor spins in a direct band gap semiconductor.

Publisher URL: http://arxiv.org/abs/1802.03483

DOI: arXiv:1802.03483v1

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