A Cryogenic Tune and Match Circuit for Magnetic Resonance Microscopy at 15.2T
| Autor: | Hardy, Benjamin M., Drake, Gary, Chai, Shuyang, Dhakal, Bibek, Martin, Jonathan B., Xu, Junzhong, Does, Mark D., Anderson, Adam W., Yan, Xinqiang, Gore, John C. |
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| Rok vydání: | 2023 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Signal to noise ratios (SNR) in magnetic resonance microscopy images are limited by acquisition times and the decreasing number of spins in smaller voxels. Significant SNR gains from cooling of the RF receiver are only realized when the Johnson noise generated within the RF hardware is large compared to the electromagnetic noise produced by the sample. Cryogenic cooling of imaging probes is common in high field systems but proves difficult to insulate the sample from extreme temperatures. We designed a chamber to cool only the tune and match circuitry to show it is possible to achieve much of the available SNR gain available for cooled coils. We designed a microcoil circuit to resonate at 650 MHz for imaging on a 15.2 T scanner. Surface loops and solenoids of varying diameters were tested to determine the largest diameter coil that demonstrated significant SNR gains from cooling. A liquid N2 cryochamber was designed to cool the circuitry while leaving the RF coil in ambient air. As the cryochamber was filled with liquid N2, Q-factors were measured on the bench while monitoring the coil's surface temperature. Improvements of SNR on images of solutions were demonstrated via cooling the tune and match circuit in the magnet bore. At 650 MHz, loops and solenoids < 3 mm in diameter showed significant improvements in quality factor on the bench. The resistance of the variable capacitors and the coaxial cable were measured to be 45% and 32% of room temperature values near the Larmor frequency. Images obtained with a 2 turn, 3 mm diameter loop with the matching circuit at room temperature and then cooled with liquid nitrogen demonstrated SNR improvements of a factor of 2. By cooling the tune and match circuit and leaving the surface loop in ambient air, SNR was improved by a factor of 2. The results are significant because it allows for more space to insulate the sample from extreme temperatures. Comment: 33 pages, 10 figures, 1 table, 4 supplemental figures, 1 supplemental table |
| Databáze: | arXiv |
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