Publication detail

T1 Relaxation Time of the Xenon 129 Influenced by Magnetic Susceptibility of the Laboratory Glasses

BARTUŠEK, K. RYCHNOVSKÝ, J. FIALA, P.

Original Title

T1 Relaxation Time of the Xenon 129 Influenced by Magnetic Susceptibility of the Laboratory Glasses

English Title

T1 Relaxation Time of the Xenon 129 Influenced by Magnetic Susceptibility of the Laboratory Glasses

Type

journal article - other

Language

en

Original Abstract

Every substance has its own susceptibility, which can affect homogenous magnetic field in magnetic resonance measuring. T1 and T2 relaxation times of measured materials or gasses can be reduced by the deformation of the local homogenous magnetic field. By the laboratory glasses magnetic susceptibilities measurement, we obtained theirs walls influence to thermally polarized 129Xe T1 relaxation times.

English abstract

Every substance has its own susceptibility, which can affect homogenous magnetic field in magnetic resonance measuring. T1 and T2 relaxation times of measured materials or gasses can be reduced by the deformation of the local homogenous magnetic field. By the laboratory glasses magnetic susceptibilities measurement, we obtained theirs walls influence to thermally polarized 129Xe T1 relaxation times.

Keywords

NMR, relaxation time, magnetic susceptibility

RIV year

2007

Released

27.08.2007

Publisher

The Electromagnetic Academy

Pages from

1241

Pages to

1244

Pages count

4

BibTex


@article{BUT43926,
  author="Karel {Bartušek} and Jan {Rychnovský} and Pavel {Fiala}",
  title="T1 Relaxation Time of the Xenon 129 Influenced by Magnetic Susceptibility of the Laboratory Glasses",
  annote="Every substance has its own susceptibility, which can affect homogenous magnetic field in magnetic resonance measuring. T1 and T2 relaxation times of measured materials or gasses can be reduced by the deformation of the local homogenous magnetic field. By the laboratory glasses magnetic susceptibilities measurement, we obtained theirs walls influence to thermally polarized 129Xe T1 relaxation times.",
  address="The Electromagnetic Academy",
  chapter="43926",
  institution="The Electromagnetic Academy",
  journal="PIERS ONLINE",
  number="8",
  volume="3",
  year="2007",
  month="august",
  pages="1241--1244",
  publisher="The Electromagnetic Academy",
  type="journal article - other"
}