This article provides an optimized solution to the problem of passive shielding against static magnetic fields with any number of spherical shells. It is known, that the shielding factor of a layered structure increases in contrast to a single shell with the same overall thickness. For the reduction of weight and cost by given material parameters and available space the best system for the layer positions has to be found. Because classic magnetically shielded rooms are very heavy, this system will be used to develop a transportable Zero-Gauss-Chamber. To handle this problem, a new way was developed, in which for the first time the solution with regard to shielding and weight was optimized. Therefore, a solution for the most general case of ...
In this paper, a new iterative algorithm for the analysis of properties of magnetic shielding system...
The aim of this paper is to show how SMES devices, if arranged with more than two magnetic dipoles, ...
Maxwell 2D software is introduced in this paper to calculate the magnetic shielding effectiveness (M...
The present paper deals with the optimisation of closed shield for the attenuation of magnetic field...
In this paper a procedure for the optimization of multilayered shields for low-frequency magnetic fi...
This work reports the optimized design of a ferro-magnetic shield for a 200-kJ superconducting magne...
Two passive magnetic-shielding-design approaches for static external fields are reviewed. The first ...
A procedure for the optimization of planar multilayered shielding structures for magnetic fields, at...
An extension of the thin shell formulation for the analysis of the shielding efficiency of multilaye...
A shape optimization technique for quasistatic field problems has been developed. The optimization i...
For shielding applications that cannot sufficiently be shielded by only a passive shield, it is usef...
The shielding performance of perforated magnetic shields for electric power applications is describe...
In this paper a detailed description of different passive shields for Extremely Low Frequency (ELF) ...
This paper proposes a new way to measure the shielding effectiveness of ferromagnetic shields. The p...
This study presents a new method of combining the layers of magnetic materials and conductive materi...
In this paper, a new iterative algorithm for the analysis of properties of magnetic shielding system...
The aim of this paper is to show how SMES devices, if arranged with more than two magnetic dipoles, ...
Maxwell 2D software is introduced in this paper to calculate the magnetic shielding effectiveness (M...
The present paper deals with the optimisation of closed shield for the attenuation of magnetic field...
In this paper a procedure for the optimization of multilayered shields for low-frequency magnetic fi...
This work reports the optimized design of a ferro-magnetic shield for a 200-kJ superconducting magne...
Two passive magnetic-shielding-design approaches for static external fields are reviewed. The first ...
A procedure for the optimization of planar multilayered shielding structures for magnetic fields, at...
An extension of the thin shell formulation for the analysis of the shielding efficiency of multilaye...
A shape optimization technique for quasistatic field problems has been developed. The optimization i...
For shielding applications that cannot sufficiently be shielded by only a passive shield, it is usef...
The shielding performance of perforated magnetic shields for electric power applications is describe...
In this paper a detailed description of different passive shields for Extremely Low Frequency (ELF) ...
This paper proposes a new way to measure the shielding effectiveness of ferromagnetic shields. The p...
This study presents a new method of combining the layers of magnetic materials and conductive materi...
In this paper, a new iterative algorithm for the analysis of properties of magnetic shielding system...
The aim of this paper is to show how SMES devices, if arranged with more than two magnetic dipoles, ...
Maxwell 2D software is introduced in this paper to calculate the magnetic shielding effectiveness (M...