Temporal sensing in widefield with color defects in diamond
Abstract
The introduction of customized materials, together with major breakthroughs in nanometerscale magnetic imaging, provides a perfect opportunity to learn more about the mechanics of correlated states in condensed matter. Nanoscale magnetic imaging techniques can be utilized to scan spatially changing magnetization and charge transport, providing valuable local information on quantum phases, domain existence, and defect function. As a result, building so-called quantum sensors could be critical in this context. Similarly, dynamically changing thermal environmental maps in living cell can potentially provide insights into several cellular mechanism. However, such widefield maps are currently limited to static to slow frame rates. In this proposal we wish to develop AC widefield magnetic field microscope in addition to exploring the possibility of real time thermal mapping with a quantum diamond microscope based on color defects in diamond.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Feb 16, 2024
- Source ID
- FA23862314012
Entities
People
- Kasturi Saha
Organizations
- Air Force Office of Scientific Research
- United States Air Force