Measurement Sensitivity of the Optically Detected Magnetic Resonance for a Single NV– Center in Diamond

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Abstract

The spectra of the optically detected magnetic resonance for single NV– centers have been experimentally studied in two solid-state samples in the range of hyperfine interactions between the electron spin and the nitrogen nucleus spin in the same NV– center. This study has been aimed at reaching a maximal microwave frequency resolution in the experimental setup used. For measurements, two low-nitrogen (no higher than 50 ppb) diamond single-crystal samples have been grown. Measured time  T*2  of the spin decoherence in NV– centers was about 2 μs in one sample and 20 μs in the other. For both samples, the spectrum of the optically detected magnetic resonance for the hyperfine splitting of a single NV– center and 14N atom has been taken and investigated. The resolution in these samples has been estimated at a level of 3.5 and 0.18 MHz, respectively. It has been noted that the resolution of the spectrum improves with increasing time  T*2 of the spin decoherence of the single NV– center.

About the authors

N. S. Kukin

Institute of Engineering Physics; National Research Nuclear University MEPhI

Email: n.s.kukin@mail.ru
142210, Serpukhov, Moscow oblast, Russia; 115409, Moscow, Russia

A. R. Muradova

Institute of Engineering Physics; National Research Nuclear University MEPhI

Email: n.s.kukin@mail.ru
142210, Serpukhov, Moscow oblast, Russia; 115409, Moscow, Russia

A. K. Nikitin

Institute of Engineering Physics; National Research Nuclear University MEPhI

Email: n.s.kukin@mail.ru
142210, Serpukhov, Moscow oblast, Russia; 115409, Moscow, Russia

A. A. Bukhtiyarov

Institute of Engineering Physics

Email: n.s.kukin@mail.ru
142210, Serpukhov, Moscow oblast, Russia

P. A. Semenov

National Research Nuclear University MEPhI

Email: n.s.kukin@mail.ru
115409, Moscow, Russia

A. N. Vasil'ev

National Research Nuclear University MEPhI

Email: n.s.kukin@mail.ru
115409, Moscow, Russia

N. I. Kargin

National Research Nuclear University MEPhI

Email: n.s.kukin@mail.ru
115409, Moscow, Russia

M. O. Smirnova

National Research Nuclear University MEPhI

Email: n.s.kukin@mail.ru
115409, Moscow, Russia

S. A. Terent'ev

Technological Institute for Superhard and Novel Carbon Materials

Author for correspondence.
Email: n.s.kukin@mail.ru
108840, Troitsk, Moscow, Russia

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