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Yukhimchuk, A.A.; Perevozchikov, V.V.; Apasov, V.A.; Aryutkin, V.S.; Vinogradov, Yu.I.; Vikharev, M.D.; Ganchuk, N.S.; Golubkov, A.N.; Grishechkin, S.K.; Demin, A.M.; Zlatoustovskiy, S.V.; Karyakin, G.I.; Klisch, V.A.; Kononenko, A.A.; Kukolkin, A.A.; Kuryakin, A.V.; Lobanov, V.N.; Malkov, I.L.; Matveev, S.S.; Rozhkov, V.Ya; Safronov, V.A.; Solyankin, V.M.; Travkin, V.V.; Tumkin, D.P.; Fil’chagin, S.V.; Oganessian, Yu.Ts; Rodin, A.M.; Bogdanov, D.D.; Golovkov, M.S.; Fomichev, A.S.; Sidorchuk, S.I.; Slepnev, R.S.; Stepantsov, S.V.; Ter-Akopian, G.M.; Wolski, R.
Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment, 11/2003, Letnik: 513, Številka: 3Journal Article
A cryogenic tritium target and computer-controlled equipment providing for feeding/recovering tritium into/from the target cell and radiation monitoring in technological lines and in workrooms is described. The tritium target set-up showed reliable operation in experiments done with a 58.3 MeV triton beam focused on a 5 mm spot at intensity approaching 3×10 7 s −1. The t+t elastic scattering cross-section was obtained in a wide angular range.
