Electron Spin Decoherence of Nitrogen-Vacancy Center Coupled to Multiple Spin Baths
At a Glance
Section titled āAt a Glanceā| Metadata | Details |
|---|---|
| Publication Date | 2016-10-01 |
| Journal | Chinese Physics Letters |
| Authors | Jian Xing, Yanchun Chang, Ning Wang, GangāQin Liu, Xinyu Pan |
| Institutions | Czech Academy of Sciences, Institute of Physics, Collaborative Innovation Center of Quantum Matter |
| Citations | 3 |
Abstract
Section titled āAbstractāWe present the experimental results of nitrogen-vacancy (NV) electron spin decoherence, which are linked to the coexistence of electron spin bath of nitrogen impurity (P1 center) and 13C nuclear spin bath. In previous works, only one dominant decoherence source is studied: P1 electron spin bath for type-Ib diamond; or 13C nuclear spin bath for type-IIa diamond. In general, the thermal fluctuation from both spin baths can be eliminated by the Hahn echo sequence, resulting in a long coherence time (T2) of about 400 Ī¼s. However, in a high-purity type-IIa diamond where 13C nuclear spin bath is the dominant decoherence source, dramatic decreases of NV electron spin T2 time caused by P1 electron spin bath are observed under certain magnetic field. We further apply the engineered Hahn echo sequence to confirm the decoherence mechanism of multiple spin baths and quantitatively estimate the contribution of P1 electron spin bath. Our results are helpful to understand the NV decoherence mechanisms, which will benefit quantum computing and quantum metrology.