Similarity of Primary Processes in Tracks of Fast Electrons, Positrons, Muons and in Blobs of Moessbauer Atoms. Common Model of early Chemical Reactions for Radiation, Positron, Muon Chemistry and Moessbauer Spectroscopy

Vsevolod Byakov; Leonid A. Kulikov; Yurii D. Perfil'ev; Sergey V. Stepanov

doi:10.4028/www.scientific.net/MSF.666.35

Paper Titles

A Computational Model for Nano Scale Cavities in the Atomic Structure of Polymer Melt and Comparisons to PALS
p.15

Calculation of Gamma Spectra for Positron Annihilation on Molecules
p.21

Investigation of Resonances in the Scattering of a Heavy ‘Positron’ by H₂ that Involve Vibrationally Excited Quasi-Bound States
p.25

Positron Annihilation Characteristics in Superstrong Magnetic Fields
p.31

Structural Characterisation of Er Implanted, Ge-Rich SiO₂ Layers Using Slow Positron Implantation Spectroscopy
p.41

Defects in Martensitic Stainless Steel 1.4031 (EN) Exposed to Friction as Seen by Positron Annihilation
p.46

Point Defect Study in Fe₇₂Al₂₈ Alloy as a Function of Thermal Treatment by Positron Lifetime Spectroscopy
p.50

Studies on Radiation Defects in Tungsten Induced by W Self-Implantation
p.54

HomeMaterials Science ForumMaterials Science Forum Vol. 666Similarity of Primary Processes in Tracks of Fast...

Similarity of Primary Processes in Tracks of Fast Electrons, Positrons, Muons and in Blobs of Moessbauer Atoms. Common Model of early Chemical Reactions for Radiation, Positron, Muon Chemistry and Moessbauer Spectroscopy

Abstract:

A unified mechanism describing formation of Ps and Mu atoms in condensed matter, radiolytic hydrogen in water and products of Auger ionization in Moessbauer atoms is presented. All these processes are similar to the Ps formation mechanism in a condensed molecular milieu.

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Periodical:

Materials Science Forum (Volume 666)

Pages:

35-40

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.666.35

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Online since:

December 2010

Authors:

Vsevolod Byakov, Leonid A. Kulikov, Yurii D. Perfil'ev, Sergey V. Stepanov

Keywords:

Moessbauer Atoms, Muonium, Positronium, Radiolytic Hydrogen

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References

[1] V.M. Byakov: Int. J. Radiat. Phys. Chem. Vol. 8 №3 (1976), p.283; Journal de Physique Vol. IV, C4, supplement au Journal de Physique II, Vol. 3 (1993), p.85.

Google Scholar

[2] V.M. Byakov and V.G. Firsov: Radiat. Phys. Chem. Vol. 28, №1 (1986), p.91 and referencies therein.

Google Scholar

[3] V.M. Byakov, S.V. Stepanov, Y. Katsumura and Y. Ito: Mater. Sci. Forum Vol. 175 (1995), p.659 and references therein.

Google Scholar

[4] Mössbauer spectroscopy of frozen solutions, edited by A. Vertes, D.L. Nagy, Akademiai Kiado, Budapest (1990).

Google Scholar

[5] D.C. Walker: Muon and muonium chemistry. Cambridge University Press (1983).

Google Scholar

[6] V.M. Byakov, L.A. Kulikov L.A., Yu. Perfilev and S.V. Stepanov: High Energy Chemistry Vol. 44, No. 5 (2010), p.371 and references therein.

Google Scholar