High-Field Microscale NMR Spectroscopy with NV Centers in Dipolarly-Coupled Samples

• URL: http://arxiv.org/abs/2405.12857v1
• Date: Tue, 21 May 2024 15:14:16 GMT
• Title: High-Field Microscale NMR Spectroscopy with NV Centers in Dipolarly-Coupled Samples
• Authors: Carlos Munuera-Javaloy, Ander Tobalina, Jorge Casanova,
• Abstract summary: Diamond-based quantum sensors have enabled high-resolution NMR spectroscopy at the microscale. We present a protocol that enables the scanning of nuclear spins in dipolarly-coupled samples at high magnetic fields.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Diamond-based quantum sensors have enabled high-resolution NMR spectroscopy at the microscale in scenarios where fast molecular motion averages out dipolar interactions among target nuclei. However, in samples with low-diffusion, ubiquitous dipolar couplings challenge the extraction of relevant spectroscopic information. In this work we present a protocol that enables the scanning of nuclear spins in dipolarly-coupled samples at high magnetic fields with a sensor based on nitrogen vacancy (NV) ensembles. Our protocol is based on the synchronized delivery of radio frequency (RF) and microwave (MW) radiation to eliminate couplings among nuclei in the scanned sample and to efficiently extract target energy-shifts from the sample's magnetization dynamics. In addition, the method is designed to operate at high magnetic fields leading to a larger sample thermal polarization, thus to an increased NMR signal. The precision of our method is ultimately limited by the coherence time of the sample, allowing for accurate identification of relevant energy shifts in solid-state systems.

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