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Brennan, T; Butler, J; Cheung, H; Frolov, V; Khroustalev, K; Kubota, Y; Mountain, R; Stone, S; Yarba, J; Alexeev, S.N; Batarin, V.A; Goncharenko, Y.M; Grishin, V.N; Datsko, V.S; Derevschikov, A.A; Fomin, Yu.V; Kachanov, V.A; Khodyrev, V.Y; Konstantinov, A.S; Kormilitsin, V.A; Kravtsov, V.I; Leontiev, V.M; Lukanin, V.S; Maisheev, V.A; Matulenko, Ya.A; Meschanin, A.P; Melnick, Y.M; Minaev, N.G; Mikhalin, N.E; Mochalov, V.V; Morozov, D.A; Nogach, L.V; Pikalov, V.I; Semenov, P.A; Shestermanov, K.E; Soloviev, L.F; Solovyanov, V.L; Ukhanov, M.N; Uzunian, A.V; Vasiliev, A.N; Yakutin, A.E
Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment, 11/2002, Letnik: 494, Številka: 1Journal Article
The electromagnetic calorimeter for a new Fermilab collider program named BTeV is based on lead tungstate scintillating crystals (PbWO 4). Various properties of crystals manufactured by Russian and Chinese companies were measured at the U70 accelerator in Protvino. A dedicated beam momentum tagging system was used to measure the energy and spatial resolution.
