Rakshyakar Giri scite author profile

Rakshyakar Giri

2Publications

109Citation Statements Received

68Citation Statements Given

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102

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Affiliations

Technical University of Denmark, Italian Institute of Technology, Center for Neuroscience and Cognitive Systems

Publications

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Coupled charge and spin dynamics in high-density ensembles of nitrogen-vacancy centers in diamond

et al. 2018

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We studied the spin depolarization of ensembles of nitrogen-vacancy (NV) centers in nitrogenrich single crystal diamonds. We found a strong dependence of the evolution of the polarized state in the dark on the concentration of NV centers. At low excitation power, we observed a simple exponential decay profile in the low-density regime and a paradoxical inverted exponential profile in the high-density regime. At higher excitation power, we observed complex behavior, with an initial sharp rise in luminescence signal after the preparation pulse followed by a slower exponential decay. Magnetic field and excitation laser power-dependent measurements suggest that the rapid initial increase of the luminescence signal is related to recharging of the nitrogen-vacancy centers (from neutral to negatively charged) in the dark. The slow relaxing component corresponds to the longitudinal spin relaxation of the NV ensemble. The shape of the decay profile reflects the interplay between two mechanisms: the NV charge state conversion in the dark and the longitudinal spin relaxation. These mechanisms, in turn, are influenced by ionization, recharging and polarization dynamics during excitation. Interestingly, we found that charge dynamics are dominant in NV-dense samples even at very feeble excitation power. These observations may be important for the use of ensembles of NV centers in precession magnetometry and sensing applications. arXiv:1801.00047v1 [cond-mat.mes-hall]

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Nondestructive Measurement of Nuclear Magnetization by Off-Resonant Faraday Rotation

et al. 2013

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We report on the nondestructive measurement of nuclear magnetization in n-GaAs via cavity enhanced Faraday rotation. In contrast with the existing optical methods, this detection scheme does not require the presence of detrimental out-of-equilibrium electrons. Specific mechanisms of the Faraday rotation are identified for (i) nuclear spins situated within the localized electron orbits, these spins are characterized by fast dynamics, (ii) all other nuclear spins in the sample characterized by much slower dynamics. Our results suggest that even in degenerate semiconductors nuclear spin relaxation is limited by the presence of localized electron states and spin diffusion, rather than by Korringa mechanism.

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Rakshyakar Giri

Coupled charge and spin dynamics in high-density ensembles of nitrogen-vacancy centers in diamond

Nondestructive Measurement of Nuclear Magnetization by Off-Resonant Faraday Rotation

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