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Optimal control pulses for the 1.2-GHz (28.2-T) NMR spectrometers

David Joseph, Christian Griesinger

2023Science Advances27 citationsDOIOpen Access PDF

Abstract

The ability to measure nuclear magnetic resonance (NMR) spectra with a large sample volume is crucial for concentration-limited biological samples to attain adequate signal-to-noise (S/N) ratio. The possibility to measure with a 5-mm cryoprobe is currently absent at the 1.2-GHz NMR instruments due to the exceedingly high radio frequency power demands, which is four times compared to 600-MHz instruments. Here, we overcome the high-power demands by designing optimal control (OC) pulses with up to 20 times lower power requirements than currently necessary at a 1.2-GHz spectrometer. We show that multidimensional biomolecular NMR experiments constructed using these OC pulses can bestow improvement in the S/N ratio of up to 26%. With the expected power limitations of a 5-mm cryoprobe, we observe an enhancement in the S/N ratio of more than 240% using our OC sequences. This motivates the development of a cryoprobe with a larger volume than the current 3-mm cryoprobes.

Topics & Concepts

SpectrometerSignal-to-noise ratio (imaging)Volume (thermodynamics)Measure (data warehouse)Nuclear magnetic resonancePower (physics)Computer scienceSIGNAL (programming language)Materials scienceSample (material)Analytical Chemistry (journal)PhysicsComputational physicsOpticsChemistryTelecommunicationsChromatographyQuantum mechanicsThermodynamicsDatabaseProgramming languageAdvanced NMR Techniques and ApplicationsAdvanced MRI Techniques and ApplicationsElectron Spin Resonance Studies
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