Nanoscale NMR and NQR with Nitrogen Vacancy Centers

POSTER

Abstract

Nuclear quadrupole resonance (NQR) is a powerful tool which is used to detect quadrupolar interaction in nuclear spins with I > 1/2. Conventional NQR and NMR technology, however, rely on measuring magnetic fields from a macroscopic number of spins. Extending NMR and NQR techniques to the nanoscale could allow us to learn structural information about interesting materials and biomolecules. We present recent progress on using Nitrogen-Vacancy (NV) centers in diamond to perform room temperature nanoscale NMR and NQR spectroscopy on small numbers of nuclear spins in hexagonal boron nitride.

Authors

  • Elana Urbach

    • Harvard University

  • Igor Lovchinsky

    • Harvard University

  • Javier Sanchez-Yamagishi

    • Harvard University

  • Soonwon Choi

    • Harvard University

  • Alexei Bylinskii

    • Harvard University

  • Bo Dwyer

    • Harvard University

  • Trond Andersen

    • Harvard University

  • Alex Sushkov

    • Harvard University

  • Hongkun Park

    • Harvard University

  • Mikhail Lukin

    • Harvard Univ
    • Harvard University
    • Harvard University, Department of Physics
    • Department of Physics, Harvard University, Cambridge, Massachusetts 02138, USA
    • Physics Department, Harvard University
    • Department of Physics, Harvard University