Passive Shimming of MRI Static Magnetic Field Using Regularization of Truncated Singular Value Decomposition

Abstract: Purpose:To develop a new shimming calculation method, which can calculate iron piece placements rapidly to make the magnetic field homogeneous at intended homogeneity and then to make the shimming working time short.Materials and Methods:The shimming calculation yields magnetic moment (MM) distribution, which is calculated by the truncated singular value decomposition (SVD) from the measured magnetic field. The MM distribution is described by a superposition of eigenmodes obtained by SVD of a response matrix f… Show more

“…Since the conventional injection scheme is not applicable, we have discussed a three-dimensional (3D) spiral injection scheme and determined that the new injection scheme is suitable for the precise beam control in such a compact ring [5,6]. We expect such homogeneous magnetic field can be realized by a superconducting magnet using MRI technologies [7,8], which are the determination method of magneto-motive force placements (coil blocks (CBs) placements [9,10] and iron pole optimizations [11]) in MRI magnet design, and the shimming calculation method to obtain iron piece placements for magnetic field shimming [12,13], using SVD (singular value decomposition) regularization [14,15], as well as superconducting aspects of MRI magnets including the persistent current operation. Using the compact magnet with these technologies, we expect that residual and error fields are much reduced from those of previous measurements.…”

Magnetic Design of a Superconducting Magnet for Muon g-2/EDM Precise Measurements in a Cylindrical Volume with Homogeneous Magnetic Field

“…Since the conventional injection scheme is not applicable, we have discussed a three-dimensional (3D) spiral injection scheme and determined that the new injection scheme is suitable for the precise beam control in such a compact ring [5,6]. We expect such homogeneous magnetic field can be realized by a superconducting magnet using MRI technologies [7,8], which are the determination method of magneto-motive force placements (coil blocks (CBs) placements [9,10] and iron pole optimizations [11]) in MRI magnet design, and the shimming calculation method to obtain iron piece placements for magnetic field shimming [12,13], using SVD (singular value decomposition) regularization [14,15], as well as superconducting aspects of MRI magnets including the persistent current operation. Using the compact magnet with these technologies, we expect that residual and error fields are much reduced from those of previous measurements.…”

Magnetic Design of a Superconducting Magnet for Muon g-2/EDM Precise Measurements in a Cylindrical Volume with Homogeneous Magnetic Field

Magnetic design and method of a superconducting magnet for muon g−2/EDM precise measurements in a cylindrical volume with homogeneous magnetic field

Accelerating Coil Path Optimization via Truncated Singular Value Decomposition Coupled with Adaptive Cross-Approximation