%AArakelyan, E A
%ABayatyan, G L
%AGrigoryan, N K
%AKnyazyan, S G
%AMargaryan, A T
%AMarikyan, G G
%D1989
%I; Erevanskij Fizicheskij Inst., Erevan (Armenia)
%J
%K46 INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY, MAGNETIC SPECTROMETERS, ELECTRON SPECTROMETERS, ALGORITHMS, BEAM ACCEPTANCE, COMPUTERIZED SIMULATION, ELECTROFISSION, ELECTRONS, ENERGY DEPENDENCE, HADRONS, INELASTIC SCATTERING, MONTE CARLO METHOD, PHOTOPRODUCTION, PROBABILITY, THEORETICAL DATA, TOTAL CROSS SECTIONS, URANIUM ISOTOPES, 440104, HIGH ENERGY PHYSICS INSTRUMENTATION
%PMedium: X; Size: 12 p.
%TTagging system as a spectrometer of electrons inelastically scattered at small angles; Ispol`zovanie sistemy mecheniya v roli spektrometra dlya neuprugorasseyannykh ehlektronov pod malymi uglami
%XA method for determining the acceptance of a magnetic spectrometer used in an experiment on measurement of the electron inelastic scattering cross section resulting from electrofission of the uranium nuclei, is described. The acceptance is calculated by the Monte Carlo simulation of the experiment with regard to the geometry of the experiment and the electron beam characteristics. The results of calculation are presented in the form of the energy distribution of the probabilities for scattered electron detection by a given channel of the magnetic spectrometer and for the uranium electrofission cross section and the total cross section of hadron photoproduction in the virtual photon energy range E{sub {gamma}} = (0.15-3.55) GeV. 4 refs.; 1 figs.; 2 tabs.
%0Technical Report
USSR Other: ON: DE92616756; TRN: SU9110183017399 INIS Russian