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Literature DB >> 30953925

Improved waveguide coupling for 1.3 mm MAS DNP probes at 263 GHz.

Armin Purea¹, Christian Reiter¹, Alexandros I Dimitriadis², Emile de Rijk², Fabien Aussenac³, Ivan Sergeyev⁴, Melanie Rosay⁴, Frank Engelke⁵.

Abstract

We consider the geometry of a radially irradiated microwave beam in MAS DNP NMR probes and its impact on DNP enhancement. Two related characteristic features are found to be relevant: (i) the focus of the microwave beam on the DNP MAS sample and (ii) the microwave magnetic field magnitude in the sample. We present a waveguide coupler setup that enables us to significantly improve beam focus and field magnitude in 1.3 mm MAS DNP probes at a microwave frequency of 263 GHz, which results in an increase of the DNP enhancement by a factor of 2 compared to previous standard hardware setups. We discuss the implications of improved coupling and its potential to enable cutting-edge applications, such as pulsed high-field DNP and the use of low-power solid-state microwave sources.

Keywords: DNP; Dynamic nuclear polarization; Magic angle spinning; Nuclear magnetic resonance; Simulation of electromagnetic fields; Solid-state NMR instrumentation; Sub-THz microwave fields

Year: 2019 PMID： 30953925 DOI： 10.1016/j.jmr.2019.03.009

Source DB: PubMed Journal: J Magn Reson ISSN： 1090-7807 Impact factor: 2.229

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Cited

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