Browsing by Author "Anderson, Adam W"
Now showing items 1-8 of 8
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Reichert, William; 0000-0003-0769-1900 (2021-06-16)Department: Biomedical EngineeringQuantitative MRI phantoms allow researchers to test the accuracy and precision of their methods on simplified chemical systems. While several well-defined phantoms exist for reproducible T1, T2, diffusion, and magnetization ...
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Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)Department: PhysicsMagnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
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Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)Department: PhysicsMagnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
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Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)Department: PhysicsMagnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
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Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)Department: PhysicsMagnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
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Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)Department: PhysicsMagnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
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Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)Department: PhysicsMagnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...
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Hardy, Benjamin Michael; 0000-0001-5217-4924 (2023-07-18)Department: PhysicsMagnetic resonance microscopy (MRM) is capable of probing fine structures and complex functions of living tissue. MRM suffers from decreased SNR and long scan times approaching 10s of hours to achieve sub 10 µm isotropic ...