Super-resolution quantum sensing using NV centers based on rotating linear polarized light and Monte-Carlo method

TL;DR

This paper introduces a super-resolution microscopy technique for NV centers in diamond, utilizing polarized laser excitation and Monte Carlo analysis to achieve sub-diffraction spatial resolution.

Contribution

It presents a novel super-resolution imaging method based on polarization-dependent fluorescence and Monte Carlo analysis for NV centers.

Findings

Achieved sub-diffraction resolution in NV center imaging.

Demonstrated polarization-dependent fluorescence analysis.

Provided a new approach for quantum sensing applications.

Abstract

The nitrogen vacancy (NV) center in diamond has been widely applied for quantum information and sensing in last decade. Based on the laser polarization dependent excitation of fluorescence emission, we propose a super-resolution microscopy of NV center. A series of wide field images of NV centers are taken with different polarizations of the linear polarized excitation laser. The fluorescence intensity of NV center is changed with the relative angle between excitation laser polarization and the orientation of NV center dipole. The images pumped by different excitation laser polarizations are analyzed with Monte Carlo method. Then the symmetry axis and position of NV center are obtained with sub-diffraction resolution.