On the interpretation of positron-annihilation data in powders and fine-grained materials - A Monte-Carlo simulation

C. Hübner; T. Staab; R. Krause-Rehberg

doi:10.1007/BF01538390

On the interpretation of positron-annihilation data in powders and fine-grained materials - A Monte-Carlo simulation

C. Hübner^*, T. Staab, R. Krause-Rehberg

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Physik

Martin-Luther Universität Halle-Wittenberg

34 Zitate (Scopus)

Abstract

Monte-Carlo simulations of positron diffusion are carried out for powders consisting of spherical and ellipsoidal particles with and without defects. Following Bergersen et al. [1], elastic positron-phonon interaction is considered to be dominant for scattering processes in positron diffusion. The central question is which fraction of the positrons would be able to reach the particle boundaries. Hence, we calculate the Fraction of Positrons reaching particle Surface (FPS). The presence of defects in the particles can drastically reduce FPS depending on the defect concentration and capture rate. We demonstrate that for small-grained materials the grain surface can influence the lifetime signal significantly.

Originalsprache	Englisch
Zeitschrift	Applied Physics A Materials Science and Processing
Jahrgang	61
Ausgabenummer	2
Seiten (von - bis)	203-206
Seitenumfang	4
ISSN	0947-8396
DOIs	https://doi.org/10.1007/BF01538390
Publikationsstatus	Veröffentlicht - 01.08.1995

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title = "On the interpretation of positron-annihilation data in powders and fine-grained materials - A Monte-Carlo simulation",

abstract = "Monte-Carlo simulations of positron diffusion are carried out for powders consisting of spherical and ellipsoidal particles with and without defects. Following Bergersen et al. [1], elastic positron-phonon interaction is considered to be dominant for scattering processes in positron diffusion. The central question is which fraction of the positrons would be able to reach the particle boundaries. Hence, we calculate the Fraction of Positrons reaching particle Surface (FPS). The presence of defects in the particles can drastically reduce FPS depending on the defect concentration and capture rate. We demonstrate that for small-grained materials the grain surface can influence the lifetime signal significantly.",

author = "C. H{\"u}bner and T. Staab and R. Krause-Rehberg",

year = "1995",

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doi = "10.1007/BF01538390",

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T1 - On the interpretation of positron-annihilation data in powders and fine-grained materials - A Monte-Carlo simulation

AU - Hübner, C.

AU - Staab, T.

AU - Krause-Rehberg, R.

PY - 1995/8/1

Y1 - 1995/8/1

N2 - Monte-Carlo simulations of positron diffusion are carried out for powders consisting of spherical and ellipsoidal particles with and without defects. Following Bergersen et al. [1], elastic positron-phonon interaction is considered to be dominant for scattering processes in positron diffusion. The central question is which fraction of the positrons would be able to reach the particle boundaries. Hence, we calculate the Fraction of Positrons reaching particle Surface (FPS). The presence of defects in the particles can drastically reduce FPS depending on the defect concentration and capture rate. We demonstrate that for small-grained materials the grain surface can influence the lifetime signal significantly.

AB - Monte-Carlo simulations of positron diffusion are carried out for powders consisting of spherical and ellipsoidal particles with and without defects. Following Bergersen et al. [1], elastic positron-phonon interaction is considered to be dominant for scattering processes in positron diffusion. The central question is which fraction of the positrons would be able to reach the particle boundaries. Hence, we calculate the Fraction of Positrons reaching particle Surface (FPS). The presence of defects in the particles can drastically reduce FPS depending on the defect concentration and capture rate. We demonstrate that for small-grained materials the grain surface can influence the lifetime signal significantly.

UR - https://www.scopus.com/pages/publications/0029354542

U2 - 10.1007/BF01538390

DO - 10.1007/BF01538390

M3 - Journal articles

AN - SCOPUS:0029354542

SN - 0947-8396

VL - 61

SP - 203

EP - 206

JO - Applied Physics A Materials Science and Processing

JF - Applied Physics A Materials Science and Processing

IS - 2

ER -

On the interpretation of positron-annihilation data in powders and fine-grained materials - A Monte-Carlo simulation

Abstract

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