Adam Zaman Chaudhry
Published 2014-12-01Version 1
We show how nitrogen-vacancy centers can be used to `detect' magnetic fields, that is, to find out whether a magnetic field, about which we may not have complete knowledge, is actually present or not. The solution to this problem comes from quantum state discrimination theory. The effect of decoherence is taken into account to optimize the time over which the nitrogen-vacancy center is allowed to interact with the magnetic field before making a measurement. We also find the optimum measurement that should be performed. We then show how multiple measurements reduce the error in detecting the magnetic field. Finally, a major limitation of the measurement process, namely limited photon detection efficiency, is taken into account. Our proposals should be implementable with current experimental technology.
Comments: 5 pages + Supplementary Material
Laser and cavity cooling of a mechanical resonator with a Nitrogen-Vacancy center in diamond
Quantum Zeno effect in a nitrogen-vacancy center embedded in a spin bath
The electron-phonon processes of the nitrogen-vacancy center in diamond
![QR code for arXiv:1412.0389 [quant-ph]](http://oss.arxitics.com/images/favicon.svg)