Towards sub-wavelength spin and charge control of nitrogen vacancy centers using super-resolution microscopy

Harishankar Jayakumar; Siddharth Dhomkar; Jacob Henshaw; Carlos Meriles

Towards sub-wavelength spin and charge control of nitrogen vacancy centers using super-resolution microscopy

POSTER

Abstract

Super resolution microscopy has enabled addressing single nitrogen vacancy centers with a spatial resolution that is an order of magnitude higher than the diffraction limit. Here, we present the latest experimental results towards the utilization of stimulated emission depletion based super resolution techniques to manipulate the charge and spin degrees of freedom of a diamond nitrogen vacancy (NV) center. This technique is applicable to various NV center sensing modalities and data storage applications that demand high spatial resolution with minimal perturbation of the NV environment.

^*National Science Foundation through grants NSF-1619896 and NSF-1547830 and from Research Corporation for Science Advancement through a FRED Award.

Presenters

Harishankar Jayakumar
- Department of Physics and Astronomy, University of Calgary
- City College of New York
- Physics, City College of New York

Authors

Harishankar Jayakumar
- Department of Physics and Astronomy, University of Calgary
- City College of New York
- Physics, City College of New York
Siddharth Dhomkar
- University College London
- City College of New York
- London Centre for Nanotechnology, University College London
Jacob Henshaw
- City College of New York
- Department of Physics, City College of New York
Carlos Meriles
- Physics, City College of New York- CUNY
- Department of Physics, City College of New York
- City College of New York