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10\microm isotropic voxels acquired with a CMOS-based planar microcoil at 14.1T: Preliminary results
{The quest for high resolution MR have push the technology to miniaturization. Thus, microcoils have been used for imaging with very high resolution. Here, we have designed and constructed a fully integrated CMOS NMR transceiver containing an on-chip microcoil, integrated amplifiers and demodulator for the high-frequency MR signal. In the present work, the initial microimaging results of this fully-integrated NMR transceiver in a 14.1 T animal scanner are presented. The on-chip microcoil allows imaging with a spatial resolution down to 10 $\micro$m with an SNR of 64 and with an improvement in SNR/volume ratio of 150 compared to a 10 mm surface coil.}
@misc{PerezRodasHMPAS2018, title = {{10$\micro$m isotropic voxels acquired with a CMOS-based planar microcoil at 14.1T: Preliminary results}}, booktitle = {{Joint Annual Meeting ISMRM-ESMRMB 2018}}, abstract = {{The quest for high resolution MR have push the technology to miniaturization. Thus, microcoils have been used for imaging with very high resolution. Here, we have designed and constructed a fully integrated CMOS NMR transceiver containing an on-chip microcoil, integrated amplifiers and demodulator for the high-frequency MR signal. In the present work, the initial microimaging results of this fully-integrated NMR transceiver in a 14.1 T animal scanner are presented. The on-chip microcoil allows imaging with a spatial resolution down to 10 $\micro$m with an SNR of 64 and with an improvement in SNR/volume ratio of 150 compared to a 10 mm surface coil.}}, year = {2018}, slug = {perezrodashmpas2018}, author = {P\'erez Rodas, M and Handwerker, J and Merkle, H and Pohmann, R and Anders, J and Scheffler, K} }