Determination of local defect density in diamond by double electron-electron resonance

  title={Determination of local defect density in diamond by double electron-electron resonance},
  author={Shang Li and Huijie Zheng and Zaili Peng and Mizuki Kamiya and Tomoyuki Niki and Viktor Stepanov and Andrey Jarmola and Yasuhiro Shimizu and Susumu Takahashi and Arne Wickenbrock and Dmitry Budker},
  journal={Physical Review B},
Shang Li, ∗ Huijie Zheng , † Zaili Peng, ∗ Mizuki Kamiya, Tomoyuki Niki, Viktor Stepanov, Andrey Jarmola, 5 Yasuhiro Shimizu, ‡ Susumu Takahashi, 6, § Arne Wickenbrock, 7 and Dmitry Budker 4, 7 Department of Physics, Graduate School of Science, Nagoya University, Nagoya 464-8602, Japan Johannes Gutenberg-Universit ̈at Mainz, 55128 Mainz, Germany Department of Chemistry, University of Southern California, Los Angeles, California 90089, USA Department of Physics, University of California… 

Figures and Tables from this paper


Magnetic field sensitivity and decoherence spectroscopy of an ensemble of narrow-linewidth nitrogen-vacancy centers close to a diamond surface
X iv :1 61 2. 00 08 8v 1 [ co nd -m at .m es -h al l] 1 D ec 2 01 6 Magnetic field sensitivity and decoherence spectroscopy of an ensemble of narrow-linewidth nitrogen-vacancy centers close to a
Longitudinal spin-relaxation in nitrogen-vacancy centers in electron irradiated diamond
We present systematic measurements of longitudinal relaxation rates ($1/T_1$) of spin polarization in the ground state of the nitrogen-vacancy (NV$^-$) color center in synthetic diamond as a function
Electron nuclear double resonance study of a nitrogen centre in diamond
  • R. J. Cook, D. Whiffen
  • Chemistry
    Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences
  • 1966
Endor measurements on a type 1b diamond with paramagnetic nitrogen centres were made at 4.2, 77 and 300 °K by means of a 35000 Mc/s spectrometer. The axially symmetric nitrogen hyperfine coupling and
Nitrogen-vacancy centers in diamond: nanoscale sensors for physics and biology.
A concise overview of the basic properties of diamond, from synthesis to electronic and magnetic properties of embedded NV centers, and how single NV centers can be harnessed for nanoscale sensing are described, including the physical quantities that may be detected, expected sensitivities, and the most common measurement protocols.
Room-temperature coherent coupling of single spins in diamond
Coherent coupling between single quantum objects is at the very heart of modern quantum physics. When the coupling is strong enough to prevail over decoherence, it can be used to engineer quantum
Magnetic-field-dependent photodynamics of single NV defects in diamond: Application to qualitative all-optical magnetic imaging
Magnetometry and magnetic imaging with nitrogen-vacancy (NV) defects in diamond rely on the optical detection of electron spin resonance (ESR). However, this technique is inherently limited to
Sensing electric fields using single diamond spins
The ability to sensitively detect charges under amb ient conditions would be a fascinating new tool benefitting a wide range of researchers ac ross disciplines. However, most current techniques are
Anisotropic interactions of a single spin and dark-spin spectroscopy in diamond
Experiments on single nitrogen–vacancy (N–V) centres in diamond, which include electron spin resonance1, Rabi oscillations2, single-shot spin readout3 and two-qubit operations with a nearby13C
Longitudinal spin relaxation in nitrogen-vacancy ensembles in diamond
We present an experimental study of the longitudinal electron-spin relaxation of ensembles of negatively charged nitrogen-vacancy (NV−) centers in diamond. The measurements were performed with
Spin dynamics in the optical cycle of single nitrogen-vacancy centres in diamond
We investigate spin-dependent decay and intersystem crossing (ISC) in the optical cycle of single negatively charged nitrogen-vacancy (NV) centres in diamond. We use spin control and pulsed optical