Optically induced polarization magnetic resonance spectroscopy at mesoscale with a spin quantum sensor

We demonstrate an optically induced polarization detection (OIPD) technique for mesoscopic magnetic resonance spectroscopy and imaging. Our method employs a single spin in highly purified diamond as the magnetic quantum sensor, allowing us to detect the spectra of polarized electron spin magnetization of a pentacene crystal with the size of tens of micrometers. We detected the magnetic resonance spectra of polarized electron spins, measured its relaxation time and observed the electron spin polarization. This is the first application of NV-based magnetic resonance to sense polarized electron spins. Compared to thermal distribution, the polarization of these electron spins is improved a thousandfold by optical pumping. The method can be extended to sense polarized nuclear spin magnetization at mesoscale with ultrahigh polarization by employing dynamic nuclear polarization.