A cylindrical metasurface improves B1+ homogeneity by 17.3%, transmit efficiency by 27.4%, and SAR-efficiency by 23% versus a dielectric waveguide in 7T traveling-wave MRI.
Performance Analysis for Extremely Large -Scale MIMO Communication Systems
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Ising machine probabilistic computing achieves optimal ML detection for XL-MIMO up to 2048x2048 antennas in 100 iterations and extends to 256-QAM via p-dits while matching or beating MMSE.
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Cylindrical Metasurface for Efficient Traveling-wave MRI at 7 T
A cylindrical metasurface improves B1+ homogeneity by 17.3%, transmit efficiency by 27.4%, and SAR-efficiency by 23% versus a dielectric waveguide in 7T traveling-wave MRI.
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Physics-Inspired Probabilistic Computing for Extremely Large-Scale MIMO Detection in Future 6G Wireless Systems
Ising machine probabilistic computing achieves optimal ML detection for XL-MIMO up to 2048x2048 antennas in 100 iterations and extends to 256-QAM via p-dits while matching or beating MMSE.