Detail publikace
Numerical Method of Simulation of Material Influences in MR Tomography
STEINBAUER, M. KUBÁSEK, R. BARTUŠEK, K.
Originální název
Numerical Method of Simulation of Material Influences in MR Tomography
Anglický název
Numerical Method of Simulation of Material Influences in MR Tomography
Jazyk
en
Originální abstrakt
Generally all Magnetic Resonance Imaging (MRI) techniques are affected by magnetic and electric properties of measured materials, resulting in errors in MR image. Using numerical simulation we can solve the effect of changes in homogeneity of static and RF magnetic fields caused by specimen made from conductive and/or magnetic material in MR tomograph. This paper deals with numerical simulation of material susceptibility influence to magnetic field.
Anglický abstrakt
Generally all Magnetic Resonance Imaging (MRI) techniques are affected by magnetic and electric properties of measured materials, resulting in errors in MR image. Using numerical simulation we can solve the effect of changes in homogeneity of static and RF magnetic fields caused by specimen made from conductive and/or magnetic material in MR tomograph. This paper deals with numerical simulation of material susceptibility influence to magnetic field.
Dokumenty
BibTex
@inproceedings{BUT25994,
author="Miloslav {Steinbauer} and Radek {Kubásek} and Karel {Bartušek}",
title="Numerical Method of Simulation of Material Influences in MR Tomography",
annote="Generally all Magnetic Resonance Imaging (MRI) techniques are affected by magnetic and electric properties of measured materials, resulting in errors in MR image. Using numerical simulation we can solve the effect of changes in homogeneity of static and RF magnetic fields caused by specimen made from conductive and/or magnetic material in MR tomograph. This paper deals with numerical simulation of material susceptibility influence to magnetic field.",
address="The Electromagnetic academy",
booktitle="PIERS 2008 Hangzhou",
chapter="25994",
howpublished="print",
institution="The Electromagnetic academy",
journal="Progress In Electromagnetics",
year="2008",
month="march",
pages="1016--1019",
publisher="The Electromagnetic academy",
type="conference paper"
}