Electron paramagnetic resonance of the N2V- defect in 15N-doped synthetic diamond

Abstract

Nitrogen is the dominant impurity in the majority of natural and synthetic diamonds, and the family of nitrogen vacancy-type (NnV) defects are crucial in our understanding of defect dynamics in these diamonds. A significant gap is the lack of positive identification of N2V-, the dominant charge state of N2V, in diamond that contains a significant concentration of electron donors. In this paper we employ isotopically-enriched diamond to identify the EPR spectrum associated with 15N2V- and use the derived spin Hamiltonian parameters to identify 14N2V- in a natural isotopic abundance sample. The electronic wavefunction of the N2V- ground state and previous lack of identification is discussed. The N2V- EPR spectrum intensity is shown to correlate with H2 optical absorption over an order of magnitude in concentration.