Identification and Control of Electron-Nuclear Spin Defects in Diamond

• Main Authors: Cooper-Roy, Alexandre (Author), Sun, Won Kyu Calvin (Author), Jaskula, Jean-Christophe (Author), Cappellaro, Paola (Author)
• Other Authors: Massachusetts Institute of Technology. Department of Nuclear Science and Engineering (Contributor), Massachusetts Institute of Technology. Research Laboratory of Electronics (Contributor)
• Format: Article
• Language: English
• Published: American Physical Society, 2020-05-22T20:28:58Z.
• Subjects: Article
• Online Access: Get fulltext

We experimentally demonstrate an approach to scale up quantum devices by harnessing spin defects in the environment of a quantum probe. We follow this approach to identify, locate, and control two electron-nuclear spin defects in the environment of a single nitrogen-vacancy center in diamond. By performing spectroscopy at various orientations of the magnetic field, we extract the unknown parameters of the hyperfine and dipolar interaction tensors, which we use to locate the two spin defects and design control sequences to initialize, manipulate, and readout their quantum state. Finally, we create quantum coherence among the three electron spins, paving the way for the creation of genuine tripartite entanglement. This approach will be useful in assembling multispin quantum registers for applications in quantum sensing and quantum information processing.
NSF Grants No. PHY1415345 and No. EECS1702716.