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Adiabatic Solid Effect

Kong Ooi Tan, Ralph T. Weber, Thach V. Can, Robert G. Griffin

2020The Journal of Physical Chemistry Letters34 citationsDOIOpen Access PDF

Abstract

The solid effect (SE) is a two spin dynamic nuclear polarization (DNP) mechanism that enhances the sensitivity in NMR experiments by irradiation of the electron–nuclear spin transitions with continuous wave (CW) microwaves at ω0S ± ω0I, where ω0S and ω0I are electron and nuclear Larmor frequencies, respectively. Using trityl (OX063), dispersed in a 60/40 glycerol/water mixture at 80 K, as a polarizing agent, we show here that application of a chirped microwave pulse, with a bandwidth comparable to the EPR line width applied at the SE matching condition, improves the enhancement by a factor of 2.4 over the CW method. Furthermore, the chirped pulse yields an enhancement that is ∼20% larger than obtained with the ramped-amplitude NOVEL (RA-NOVEL), which to date has achieved the largest enhancements in time domain DNP experiments. Numerical simulations suggest that the spins follow an adiabatic trajectory during the polarization transfer; hence, we denote this sequence as an adiabatic solid effect (ASE). We foresee that ASE will be a practical pulsed DNP experiment to be implemented at higher static magnetic fields due to the moderate power requirement. In particular, the ASE uses only 13% of the maximum microwave power required for RA-NOVEL.

Topics & Concepts

Adiabatic processSpinsMicrowaveMaterials scienceHyperfine structurePolarization (electrochemistry)Atomic physicsNuclear magnetic resonanceFemtosecondPulse sequenceElectronMolecular physicsChemistryOpticsPhysicsCondensed matter physicsLaserThermodynamicsQuantum mechanicsPhysical chemistryAdvanced NMR Techniques and ApplicationsElectron Spin Resonance StudiesSolid-state spectroscopy and crystallography
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