On new developments in the physics of positron swarms

Z. Lj Petrović; A. Banković; S. Dujko; S. Marjanović; M. Šuvakov; G. Malović; J. P. Marler; S. J. Buckman; R. D. White; R. E. Robson

doi:10.1088/1742-6596/199/1/012016

On new developments in the physics of positron swarms

Z. Lj Petrović, A. Banković, S. Dujko, S. Marjanović, M. Šuvakov, G. Malović, J. P. Marler, S. J. Buckman, R. D. White, R. E. Robson

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

Recently a new wave of swarm studies of positrons was initiated based on more complete scattering cross section sets. Initially some interesting and new physics was discovered, most importantly negative differential conductivity (NDC) that occurs only for the bulk drift velocity while it does not exist for the flux property. However the ultimate goal was to develop tools to model positron transport in realistic applications and the work that is progressing along these lines is reviewed here. It includes studies of positron transport in molecular gases, thermalization in generic swarm situations and in realistic gas filled traps and transport of positrons in crossed electric and magnetic fields. Finally we have extended the same technique of simulation (Monte Carlo) to studies of thermalization of positronium molecule. In addition, recently published first steps towards including effects of dense media on positron transport are summarized here.

Original language	English
Article number	012016
Journal	Journal of Physics: Conference Series
Volume	199
DOIs	https://doi.org/10.1088/1742-6596/199/1/012016
Publication status	Published - 2010

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title = "On new developments in the physics of positron swarms",

abstract = "Recently a new wave of swarm studies of positrons was initiated based on more complete scattering cross section sets. Initially some interesting and new physics was discovered, most importantly negative differential conductivity (NDC) that occurs only for the bulk drift velocity while it does not exist for the flux property. However the ultimate goal was to develop tools to model positron transport in realistic applications and the work that is progressing along these lines is reviewed here. It includes studies of positron transport in molecular gases, thermalization in generic swarm situations and in realistic gas filled traps and transport of positrons in crossed electric and magnetic fields. Finally we have extended the same technique of simulation (Monte Carlo) to studies of thermalization of positronium molecule. In addition, recently published first steps towards including effects of dense media on positron transport are summarized here.",

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AU - Petrović, Z. Lj

AU - Banković, A.

AU - Dujko, S.

AU - Marjanović, S.

AU - Šuvakov, M.

AU - Malović, G.

AU - Marler, J. P.

AU - Buckman, S. J.

AU - White, R. D.

AU - Robson, R. E.

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On new developments in the physics of positron swarms

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