Design of a local quasi-distributed tuning and matching circuit for dissolution DNP cross polarization

Research output: Contribution to journalJournal article – Annual report year: 2019Researchpeer-review

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Dynamic nuclear polarization (DNP) build-up times at low temperature for low-gamma heteronuclei can be unfavorably long and can be accelerated by transfer of polarization from protons. The efficiency of the cross polarization (CP) depends on the B1-field strengths, the pulse sequence chosen for cross polarization and the sample composition. CP experiments rely on high B1-fields, which typically lead to electrical discharge and breakdown in the circuit. This problem is particularly severe in the low pressure helium atmosphere due to easily ionized helium atoms. The purpose of this study is to identify strategies to minimize voltages across components in a tuning and matching circuit of the coil to avoid electrical discharge during CP experiments. Design equations for three tuning and matching network configurations are derived. The results of the study are then used in the design of a single coil double resonance DNP probe operating at 71.8 MHz (13C frequency) and 285.5 MHz (1H frequency). In the current setup we achieve 28% polarization on 13C in urea with a build-up time of 11.6 min with CP compared to 14% and 53 min by direct polarization using TEMPOL as the radical. Different cross polarization sequences are compared.

Original languageEnglish
JournalSolid State Nuclear Magnetic Resonance
Volume102
Pages (from-to)12-20
ISSN0926-2040
DOIs
Publication statusPublished - 2019
CitationsWeb of Science® Times Cited: No match on DOI

    Research areas

  • Electrical discharge, Helium, DNP probe, Matching circuit, Cross-polarisation, CP

ID: 177200708