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Abstract The coherent control of the orbital state is crucial for realizing the extremely-low power manipulation of the color centers in diamonds. Herein, a neutrally-charged nitrogen-vacancy center, NV 0 , is proposed as an ideal system for orbital control using electric fields. The electric susceptibility in the ground state of NV 0 is estimated, and found to be comparable to that in the excited state of NV − . Also, the coherent control of the orbital states of NV 0 is demonstrated. The required power for orbital control is three orders of magnitude smaller than that for spin control, highlighting the potential for interfacing a superconducting qubit operated in a dilution refrigerator.
Kurokawa et al. (Mon,) studied this question.