AI Article Synopsis
- A variable-field NMR system utilizes individually programmed electropermanent AlNiCo-5 magnets to create a dynamically tunable magnetic field for precise measurements.
- An ultra-broadband front-end allows for efficient power transmission across various frequencies, enabling robust operation without needing to tune the probe.
- The technique demonstrates effective differentiation of dairy products based on proton spin-lattice relaxation variations, suggesting its potential as a cost-effective alternative for advanced NMR applications and improved MRI techniques.
Article Abstract
In this work, a dynamically tunable B field is used to perform variable-field NMR. The system consists of an array of electropermanent AlNiCo-5 magnets whose magnetizations are individually programmed using pulse-power control. This design allows the field strength to be varied for field-dispersion measurements. An ultra-broadband front-end is utilized that maintains efficient power transmission over a broad range of frequencies for robust operation without probe tuning. We perform T-T correlation measurements at various B field strengths (0.5-2 MHz) and demonstrate discrimination of different dairy products. We observe variation in the frequency dependence of the proton spin-lattice relaxation for the different products as a function of the degree of protein hydration. This variable-field technique provides a low-cost alternative to fast field-cycling NMR and could open possibilities for novel contrast measurements and spatial encoding in magnetic resonance imaging.
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| http://dx.doi.org/10.1016/j.jmr.2019.04.010 | DOI Listing |
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