INTERNAL FIELDS, DEFECTS, AND MOTIONS, STUDIED BY NUCLEAR METHODS.

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  • Philipps-Universität Marburg
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Details

Original languageEnglish
Pages (from-to)19-42
Number of pages24
JournalFestkoerperprobleme
Volume20
Publication statusPublished - 1980
Externally publishedYes
EventUnknown conference - Freudenstadt, W Ger
Duration: 24 Mar 198028 Mar 1980

Abstract

Oriented radio-active nuclei, embedded in solids or liquids, can be used to obtain microscopic information on their environment. After production of the oriented probe nuclei interactions with surrounding fields cause their reorientation, which can be detected via a change of the anisotropy of the beta -or gamma -decay radiation. This has been applied to the study of internal magnetic fields, electric field gradients, internal motions, and phenomena connected with production and annealing of radiation defects. Illustrative experiments in insulators, semiconductors, and metals are presented.

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Cite this

INTERNAL FIELDS, DEFECTS, AND MOTIONS, STUDIED BY NUCLEAR METHODS. / Stoeckmann, Hans Juergen; Heitjans, Paul; Ackermann, Hans.
In: Festkoerperprobleme, Vol. 20, 1980, p. 19-42.

Research output: Contribution to journalConference articleResearchpeer review

Stoeckmann, HJ, Heitjans, P & Ackermann, H 1980, 'INTERNAL FIELDS, DEFECTS, AND MOTIONS, STUDIED BY NUCLEAR METHODS.', Festkoerperprobleme, vol. 20, pp. 19-42.
Stoeckmann, H. J., Heitjans, P., & Ackermann, H. (1980). INTERNAL FIELDS, DEFECTS, AND MOTIONS, STUDIED BY NUCLEAR METHODS. Festkoerperprobleme, 20, 19-42.
Stoeckmann HJ, Heitjans P, Ackermann H. INTERNAL FIELDS, DEFECTS, AND MOTIONS, STUDIED BY NUCLEAR METHODS. Festkoerperprobleme. 1980;20:19-42.
Stoeckmann, Hans Juergen ; Heitjans, Paul ; Ackermann, Hans. / INTERNAL FIELDS, DEFECTS, AND MOTIONS, STUDIED BY NUCLEAR METHODS. In: Festkoerperprobleme. 1980 ; Vol. 20. pp. 19-42.
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abstract = "Oriented radio-active nuclei, embedded in solids or liquids, can be used to obtain microscopic information on their environment. After production of the oriented probe nuclei interactions with surrounding fields cause their reorientation, which can be detected via a change of the anisotropy of the beta -or gamma -decay radiation. This has been applied to the study of internal magnetic fields, electric field gradients, internal motions, and phenomena connected with production and annealing of radiation defects. Illustrative experiments in insulators, semiconductors, and metals are presented.",
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AU - Stoeckmann, Hans Juergen

AU - Heitjans, Paul

AU - Ackermann, Hans

PY - 1980

Y1 - 1980

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AB - Oriented radio-active nuclei, embedded in solids or liquids, can be used to obtain microscopic information on their environment. After production of the oriented probe nuclei interactions with surrounding fields cause their reorientation, which can be detected via a change of the anisotropy of the beta -or gamma -decay radiation. This has been applied to the study of internal magnetic fields, electric field gradients, internal motions, and phenomena connected with production and annealing of radiation defects. Illustrative experiments in insulators, semiconductors, and metals are presented.

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JO - Festkoerperprobleme

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SN - 0430-3393

T2 - Unknown conference

Y2 - 24 March 1980 through 28 March 1980

ER -

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