Add to ORKGIntroduction The need for a homogeneous magnetic field in magnetic resonance imaging is well established, especially at high static magnetic field strengths where susceptibility-induced image distortions and signal losses become exces-sively large. Dynamic shim updating, where the optimal se
Magnetic resonance imaging (MRI) is widely used for contemporary diagnostics and research. Higher st...
This paper presents a new passive shim design method and a novel shimming procedure to correct the m...
High magnetic fields increase are advantageous for MRS, since sensitivity and spectral dispersion ar...
Magnetic resonance imaging (MRI) is a non-invasive tomographic imaging technique and a powerful tool...
Magnetic resonance imaging requires a homogeneous B0 magnetic field, however the field is often dist...
The homogenization of static magnetic field (B0) is necessary for MR imaging. The unwanted B0 inhomo...
In a magnetic resonance imaging system, the magnetic field homogeneity of the imaging area plays a d...
This paper presents a new passive shimming (PS) design scheme for the correction of static magnetic-...
Magnetic resonance imaging (MRI) is moving towards higher and higher eld strengths. After 1.5T MRI s...
The aim of this work was to develop and optimise techniques for improving the magnetic-field homogen...
Static magnetic field homogeneities negatively affect image quality, in particular at high magnetic ...
Magnetic resonance (MR) scanners are important tools in medical diagnostics and in many areas of neu...
This thesis reports on the utility of high permittivity dielectric materials for adjusting the radio...
Synopsis: This paper presents a new alternative shimming procedure to correct the magnetic field inh...
In this paper an approach of ferromagnetic shimming for permanent MRI magnet is presented. It is des...
Magnetic resonance imaging (MRI) is widely used for contemporary diagnostics and research. Higher st...
This paper presents a new passive shim design method and a novel shimming procedure to correct the m...
High magnetic fields increase are advantageous for MRS, since sensitivity and spectral dispersion ar...
Magnetic resonance imaging (MRI) is a non-invasive tomographic imaging technique and a powerful tool...
Magnetic resonance imaging requires a homogeneous B0 magnetic field, however the field is often dist...
The homogenization of static magnetic field (B0) is necessary for MR imaging. The unwanted B0 inhomo...
In a magnetic resonance imaging system, the magnetic field homogeneity of the imaging area plays a d...
This paper presents a new passive shimming (PS) design scheme for the correction of static magnetic-...
Magnetic resonance imaging (MRI) is moving towards higher and higher eld strengths. After 1.5T MRI s...
The aim of this work was to develop and optimise techniques for improving the magnetic-field homogen...
Static magnetic field homogeneities negatively affect image quality, in particular at high magnetic ...
Magnetic resonance (MR) scanners are important tools in medical diagnostics and in many areas of neu...
This thesis reports on the utility of high permittivity dielectric materials for adjusting the radio...
Synopsis: This paper presents a new alternative shimming procedure to correct the magnetic field inh...
In this paper an approach of ferromagnetic shimming for permanent MRI magnet is presented. It is des...
Magnetic resonance imaging (MRI) is widely used for contemporary diagnostics and research. Higher st...
This paper presents a new passive shim design method and a novel shimming procedure to correct the m...
High magnetic fields increase are advantageous for MRS, since sensitivity and spectral dispersion ar...