Related papers: Nonlinear optical pumping to a diamond NV center dark state

Nonlinear optical pumping to a diamond NV center dark state

URL: http://arxiv.org/abs/2411.10638v1
Date: Sat, 16 Nov 2024 00:11:26 GMT
Title: Nonlinear optical pumping to a diamond NV center dark state
Authors: Prasoon K. Shandilya, Vinaya K. Kavatamane, Sigurd Flågan, David P. Lake, Denis Sukachev, Paul E. Barclay,
Abstract summary: We show that Quenching of photoluminescence, which degrades NV readout, is commonly ascribed to a dark state that is not fully understood. Using a nanoscale cavity to generate intense infrared fields that NV emission nonlinearly with field intensity, we show that the dark state is accessed by two-photon pumping into the $4A$ quartet state of the neutrally charged NV.
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Abstract: The photodynamics of diamond nitrogen-vacancy (NV) centers limits their performance in many quantum technologies. Quenching of photoluminescence, which degrades NV readout, is commonly ascribed to a dark state that is not fully understood. Using a nanoscale cavity to generate intense infrared fields that quench NV emission nonlinearly with field intensity, we show that the dark state is accessed by two-photon pumping into the $^4A_2$ quartet state of the neutrally charged NV (NV$^0$). We constrain this state's energy relative to the NV$^0$ ground-state ($^2E$) to $>0.58$\,eV and the recombination energy threshold to the NV$^-$ ground state ($^3A_2$) to $<2.01$ eV. Furthermore, we show that accessing this state allows sensing of local infrared fields. This new understanding will allow predictions of the limits of NV technologies reliant upon intense fields, including levitated systems, spin--optomechanical devices, and absorption--based magnetometers.

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