Linear Transversal, Angular, and Time Characteristics of Electron-to-Positron Conversion in Optimal Targets at E– = 55, 220, 1000 MeV
https://doi.org/10.56304/S2079562920060184
Abstract
For normally incident on optimal converter targets “needle-like” “instantaneous” beams of electrons with the kinetic energies E− = 55, 220, 1000 MeV, distributions of produced positrons with different kinetic energies at the converter outputs were model-calculated for linear transversal and angular deviations from the axis of electron beams and for time. The calculation results are compared with the available literature data and the requirements of experiments.
About the Authors
L. Z. Dzhilavyan
Institute for Nuclear Research of Russian Academy of Sciences
Russian Federation
Russian Federation
L. Z. Dzhilavyan,
Moscow, 117312
S. S. Belyshev
Physics Faculty of Lomonosov Moscow State University
Russian Federation
Russian Federation
S. S. Belyshev,
Moscow, 119991.
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Review
For citations:
Dzhilavyan L.Z., Belyshev S.S. Linear Transversal, Angular, and Time Characteristics of Electron-to-Positron Conversion in Optimal Targets at E– = 55, 220, 1000 MeV. Nuclear Physics and Engineering. 2021;12(4):220-228. (In Russ.) https://doi.org/10.56304/S2079562920060184
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