Conclusions
The measurements have shown that a BGO crystal with a diameter of 5 cm can be used to build relatively compact, highly efficient spectrometers for electrons and γ quanta; the resolution is 15–5% for energies of 0.5–6 MeV and ∼40% for 20–100 MeV; the characteristic of the spectrometer is linear in this entire range.
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I. Adam, M. Gonusek, and M. I. Krivopustov, Basic Characteristics of the Bi4Ge3O12 Scintillators and Their Use in Nuclear Physics and Other Fields of Science and Technology, Preprint 13-83-748 of the Joint Institute of Nuclear Research [in Russian], Dubna (1983), p. 12.
J. Adler, G. Andersson, B. Forman, et al., "The16O(γ, n)15O* and16O(γ, p)15N* reactions at intermediate energies," Nucl. Phys.,A171, 560 (1971).
A. S. Belousov, Ya. M. Vazdik, A. M. Halper, et al., A Calibration Beam of Tagged Gamma Quanta in the Pakhra Synchrotron, Preprint 186 of the Physics Institute of the Academy of Sciences [in Russian], Moscow (1979).
J. Bakker, Study of the Energy Calibration of a High-Resolution EM Calorimeter, CERN-EP/89-16 (1989).
J. Bakker, "Performance of a prototype BGO calorimeter in an electron beam from 2 to 50 GeV," Nucl. Instr. Meth.,A254, 535 (1987).
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Translated from Atomaya Énergiya, Vol. 69, No. 4, pp. 246–248, October, 1990.
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Adam, I., Blascheck, K., Belov, M.V. et al. Investigation of the characteristics of an e, φ scintillation spectrometer with a BGO crystal for energies of 0.5–100 MeV. At Energy 69, 868–872 (1990). https://doi.org/10.1007/BF02046025
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DOI: https://doi.org/10.1007/BF02046025