Abstract
The Compton effect associated with high-energy electrons (~650 MeV) is being studied to an accuracy of better than 1% on the synchrotron in the High-Energy Electron Laboratory of the Lebedev Physics Institute of the Academy of Sciences of the USSR. This high accuracy imposes a number of complex demands on the experimental conditions and individual parts of the apparatus. At least two methodical problems have to be solved. On one hand, the recording of low-energy γ quanta (⪝ 2 MeV) with a reasonably high efficiency under synchrotron working conditions, and on the other hand the spectrometric recording of high-energy Compton electrons (~600 MeV) with an angular aperture relative to the primary beam of γ quanta of <2 · 10-2. The first problem is partly solved in another paper of this collection [1] and the second in the present paper.
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Maikov, V.N., Murashova, V.A., Syreishchikova, T.I., Tel’nov, Y.Y., Yakimenko, M.N. (1969). Magnetic Spectrometer for Charged Particles. In: Skobel’tsyn, D.V. (eds) Experimental Physics. The Lebedev Physics Institute Series, vol 40. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-0673-3_2
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DOI: https://doi.org/10.1007/978-1-4684-0673-3_2
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