Suppression of the Optical Linewidth and Spin Decoherence of a Quantum Spin Center in a p-n Diode

Denis R. Candido; Michael E. Flatté

doi:10.1103/PRXQuantum.2.040310

Suppression of the Optical Linewidth and Spin Decoherence of a Quantum Spin Center in a p-n Diode

Denis R. Candido (Corresponding author)
, Michael E. Flatté (Corresponding author)

Research output: Contribution to journal › Article › Academic › peer-review

12 Citations (Scopus)

140 Downloads (Pure)

Abstract

We present a quantitative theory of the suppression of the optical linewidth due to charge fluctuation noise in a - diode, recently observed by Anderson et al. [Science 366, 1225 (2019)]. We connect the local electric field with the voltage across the diode, allowing the identification of the defect depth from the experimental threshold voltage. Furthermore, we show that an accurate description of the decoherence of such spin centers requires a complete spin-1 formalism that yields a biexponential decoherence process, and predict how reduced charge fluctuation noise suppresses the spin center’s decoherence rate.

Original language	English
Article number	040310
Number of pages	22
Journal	PRX Quantum
Volume	2
Issue number	4
DOIs	https://doi.org/10.1103/PRXQuantum.2.040310
Publication status	Published - Dec 2021

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abstract = "We present a quantitative theory of the suppression of the optical linewidth due to charge fluctuation noise in a - diode, recently observed by Anderson et al. [Science 366, 1225 (2019)]. We connect the local electric field with the voltage across the diode, allowing the identification of the defect depth from the experimental threshold voltage. Furthermore, we show that an accurate description of the decoherence of such spin centers requires a complete spin-1 formalism that yields a biexponential decoherence process, and predict how reduced charge fluctuation noise suppresses the spin center{\textquoteright}s decoherence rate.",

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AB - We present a quantitative theory of the suppression of the optical linewidth due to charge fluctuation noise in a - diode, recently observed by Anderson et al. [Science 366, 1225 (2019)]. We connect the local electric field with the voltage across the diode, allowing the identification of the defect depth from the experimental threshold voltage. Furthermore, we show that an accurate description of the decoherence of such spin centers requires a complete spin-1 formalism that yields a biexponential decoherence process, and predict how reduced charge fluctuation noise suppresses the spin center’s decoherence rate.

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Suppression of the Optical Linewidth and Spin Decoherence of a Quantum Spin Center in a p-n Diode

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