2021.8.26 High-performance gradient systems equipped with large maximum gradient amplitudes are particularly beneficial for diffusion MRI as they boost the efficiency of diffusion encoding. The use of stronger gradients enables a given diffusion
Charlar en Línea2018.12.1 Emphasis is given to techniques that particularly benefit from the changing physical characteristics at high magnetic fields, including susceptibility-weighted imaging
Charlar en Línea2021.5.17 Overview. High-performance gradients allow preclinical researchers to go beyond the current state of the art in clinical systems. This session will focus on cutting
Charlar en LíneaThis method has a number of advantages: the SNR is insensitive to field inhomogeneities, there is insignificant T 2 * decay during readout, it has low first moments on all gradient
Charlar en LíneaAbstract. Ultra High Field (UHF) MRI requires improved gradient and shim performance to fully realize the promised gains (SNR as well as spatial, spectral, diffusion resolution)
Charlar en Línea2015.6.8 High-Dimensional Continuous Control Using Generalized Advantage Estimation. Policy gradient methods are an appealing approach in reinforcement
Charlar en Línea2013.7.1 The present paper focuses on CABOTO (CArbon BOoster for Therapy in Oncology), a compact, efficient high-frequency linac that can accelerate C 6+ ions and H
Charlar en Línea2021.9.22 Because accelerating gradient determines the length of the accelerator for a fixed final energy, high-gradient accelerator technology can minimize linac length.
Charlar en LíneaAdvantages of mutli-tensor, high resolution gravity gradient data Gary Barnes*, Joseph Barraud, John Lumley, Mark Davies. Arkex Ltd. Introduction Full tensor gravity
Charlar en LíneaThe present paper focuses on CABOTO (CArbon BOoster for Therapy in Oncology), a compact, efficient high-frequency linac that can accelerate C(6+) ions and H2 molecules
Charlar en Línea