Ground State Microwave-Stimulated Raman Transitions and Adiabatic Spin Transfer in the $^{15}$Nitrogen-Vacancy Center

Abstract: Microwave pulse sequences are the basis of coherent manipulation of the electronic spin ground state in nitrogen-vacancy (NV) centers. In this work we demonstrate stimulated Raman transitions (SRT) and stimulated Raman adiabatic passage (STIRAP), two ways to drive the dipole-forbidden transition between two spin sublevels in the electronic triplet ground state of the NV center. is is achieved by a multitone Raman microwave pulse which simultaneously drives two detuned transitions via a virtual level for SRT or… Show more