Detail publikace

Compensating the effect of static magnetic field in MR measurement of diffusion

Originální název

Compensating the effect of static magnetic field in MR measurement of diffusion

Anglický název

Compensating the effect of static magnetic field in MR measurement of diffusion

Jazyk

en

Originální abstrakt

The paper describes a modified PFGSE MR method of measuring diffusion coefficients in heterogeneous materials. The principle of the proposed method consists in measuring the decrease in spin echo when applying diffusion gradients of different polarities. The detected images must be processed using special methods. The method greatly reduces the effect of static magnetic field gradient on the precision of measuring diffusion coefficients.

Anglický abstrakt

The paper describes a modified PFGSE MR method of measuring diffusion coefficients in heterogeneous materials. The principle of the proposed method consists in measuring the decrease in spin echo when applying diffusion gradients of different polarities. The detected images must be processed using special methods. The method greatly reduces the effect of static magnetic field gradient on the precision of measuring diffusion coefficients.

BibTex


@inproceedings{BUT30115,
  author="Karel {Bartušek} and Eva {Gescheidtová}",
  title="Compensating the effect of static magnetic field in MR measurement of diffusion",
  annote="The paper describes a modified PFGSE MR method of measuring diffusion coefficients in heterogeneous materials. The principle of the proposed method consists in measuring the decrease in spin echo when applying diffusion gradients of different polarities. The detected images must be processed using special methods. The method greatly reduces the effect of static magnetic field gradient on the precision of measuring diffusion coefficients.",
  address="The Electromagnetic Academy",
  booktitle="PIERS 2009, Beijing",
  chapter="30115",
  howpublished="print",
  institution="The Electromagnetic Academy",
  year="2009",
  month="march",
  pages="1066--1070",
  publisher="The Electromagnetic Academy",
  type="conference paper"
}