Add to ORKGIn this work, we demonstrate B1 phase shimming in situ at 9.4 Tesla: A rapid calibration pre-scan provides B1+ magnitude and phase maps that are used to predict the total field across the subject dependent on a phase configuration of choice. In addition, a GUI provides the option to select a region within a slice where the field is quickly and reliably optimized by a simulated annealing algorithm based on a suitable optimization criterion. The accuracy of this method is demonstrated in a saline phantom and used for B1 shimming in the human brain
Magnetic resonance spectroscopy (MRS) and spectroscopic imaging (MRSI) allow the chemical analysis o...
Ultrahigh field systems (7T), offer significant advantages for spectroscopic imaging studies of the ...
Magnetic resonance imaging (MRI) is widely used for contemporary diagnostics and research. Higher st...
In this work, we demonstrate B1 phase shimming in situ at 9.4 Tesla: A rapid calibration pre-scan pr...
Purpose To describe the process of calibrating a B0 shim system using high-degree (or high order) sp...
The implementation of a "fast, automatic shimming technique by mapping along projections" (FASTMAP) ...
The transition of Magnetic Resonance Spectroscopy to ultra-high fields promises major advantages wit...
Purpose of the software: B0 shimming is a vital pre-scan adjustment that directly affects the qualit...
Objective: As the MRI main magnetic field rises for improved Signalto-Noise Ratio, susceptibility-in...
PURPOSE: To compare several different optimization algorithms currently used for localized in vivo B...
Purpose Slice-wise shimming can improve field homogeneity, but suffers from large noise propagation ...
In this work, we evaluated the performance of two B0 shimming approaches (i.e. a very high order sph...
Purpose A 16-channel multi-coil shimming setup was developed to mitigate severe B0 field perturbatio...
A highly homogeneous B0 field is essential if we are to exploit the advantages of higher field stren...
Multi-row arrays offer improved coverage in z-direction along with the capability to control the B1+...
Magnetic resonance spectroscopy (MRS) and spectroscopic imaging (MRSI) allow the chemical analysis o...
Ultrahigh field systems (7T), offer significant advantages for spectroscopic imaging studies of the ...
Magnetic resonance imaging (MRI) is widely used for contemporary diagnostics and research. Higher st...
In this work, we demonstrate B1 phase shimming in situ at 9.4 Tesla: A rapid calibration pre-scan pr...
Purpose To describe the process of calibrating a B0 shim system using high-degree (or high order) sp...
The implementation of a "fast, automatic shimming technique by mapping along projections" (FASTMAP) ...
The transition of Magnetic Resonance Spectroscopy to ultra-high fields promises major advantages wit...
Purpose of the software: B0 shimming is a vital pre-scan adjustment that directly affects the qualit...
Objective: As the MRI main magnetic field rises for improved Signalto-Noise Ratio, susceptibility-in...
PURPOSE: To compare several different optimization algorithms currently used for localized in vivo B...
Purpose Slice-wise shimming can improve field homogeneity, but suffers from large noise propagation ...
In this work, we evaluated the performance of two B0 shimming approaches (i.e. a very high order sph...
Purpose A 16-channel multi-coil shimming setup was developed to mitigate severe B0 field perturbatio...
A highly homogeneous B0 field is essential if we are to exploit the advantages of higher field stren...
Multi-row arrays offer improved coverage in z-direction along with the capability to control the B1+...
Magnetic resonance spectroscopy (MRS) and spectroscopic imaging (MRSI) allow the chemical analysis o...
Ultrahigh field systems (7T), offer significant advantages for spectroscopic imaging studies of the ...
Magnetic resonance imaging (MRI) is widely used for contemporary diagnostics and research. Higher st...