Magneto-Optical Properties of Quantum Emitters in Diamond
Abstract
Color center Nitrogen-vacancy in diamond has enabled high sensitive and high spatial resolution magnetic, electric and temperature sensing as well as multi qubit system with unprecedented long electronic spin coherence at room temperature. Despite of these remarkable applications, still these systems must be improved regarding their low luminescence intensity, charge stability. Inthis proposal, new defects or trapped molecules will be explored principally in diamond and other semiconductors with the goal of producing single emitters with stable, bright and narrow optical transitions. Optically detected magnetic resonance will be recorded in order to find spin-dependent fluorescence that might lead to optical spin preparation and readout. This project will find and characterize novel single emitters for improving quantum metrology and quantum information applications.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Sep 19, 2018
- Source ID
- FA95501810513
Entities
People
- Jeronimo R. Maze
Organizations
- Air Force Office of Scientific Research
- Pontifical Catholic University of Chile
- United States Air Force