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IHEP 2009 - 14 (In Russian)
Yu.M.Antipov, A.G.Afonin, A.V.Vasilevskiy, I.A.Gusev, V.I.Demyanchuk, O.V.Zaytkov, N.A.Ignashin, Y.G.Karshev, A.V.Larionov, A.V.Maximov, A.A.Matyushin, A.V.Minchenko, M.S.Mikheev, V.A.Mirgorodskiy, V.N.Peleshko, V.D.Rudko, V.I.Terekhov, N.R.Tyurin, Y.S.Fedotov (IHEP, Protvino, Russia), Y.A.Trutnev, V.V.Burtsev, A.A.Volkov, I.A.Ivanin, C.A.Kartanov, Y.P.Kuropatkin, A.L.Mikhailov, K.L.Mikhailyukov, O.V.Oreshkov, A.V.Rudnev, G.M.Spirov, M.A.Syrunin, M.V.Tatsenko, I.A.Tkachenko, I.V.Khramov (RFYaC-VNIIEF, Moscow )
The Proton-Radiographic Facility Based on IHEP 70 GeV Proton Synchrotron
Protvino, 2009. – p. 16, figs: 14, refs.: 6


Proton-radiographic facility based on IHEP 70 GeV proton synchrotron is described. It’s created on the basis of existing infrastructure – initial part of injection channel (IC). The quadrupoles lenses (100 mm aperture) are used for proton beam focusing. This experimental facility designed for proton beam energy 50 GeV and has field of view ~60 mm. The existing U70 extraction system is used. The facility allows to obtain optical resolution less than 0.3 mm for objects with an optical thickness ~300 g/cm2.
In 2004-2008 years the experiments with multiframe registration of fast prcceses were fulfilled. Several types of compact explosion protect chambers were used. This chambers are possible to localize energy allocation up to ~2.5 kg TE. The condition chambers and environmental monitoring also take place.


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Preprints'2009 list Support team