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Effects of Microwave Gating on Nuclear Spin Echoes in Dynamic Nuclear Polarization.

David GuarinDiego CarnevaleMathieu BaudinPhilippe PelupessyDaniel AbergelGeoffrey Bodenhausen
Published in: The journal of physical chemistry letters (2021)
Dipolar or quadrupolar echoes allow one to observe undistorted powder patterns, in contrast to simple Fourier transformations of free induction decays (FIDs). In this work, the buildup of proton polarization due to dynamic nuclear polarization (DNP) is monitored by observing echoes rather than FIDs. When the microwave irradiation is interrupted during the buildup of DNP, the electrons relax back to their Boltzmann distribution at high fields ( B 0 = 6.7 T) and low temperatures 1.2 < T sample < 4.0 K, so that dipolar flip-flop-flip terms involving two electrons and one proton become largely ineffective as a mechanism of proton decoherence. This leads to a prolongation of the nuclear coherence lifetime T 2 ' ( 1 H). The increase in T 2 ' ( 1 H) leads to transient surges of the amplitudes of spin echoes. Conversely, transient slumps of spin echoes are observed when the microwave irradiation is switched back on, due to a shortening of nuclear coherence lifetimes.
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