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100 kW MODULAR LINEAR ACCELERATOR FOR INDUSTRIAL APPLICATIONS WITH ELECTRON ENERGY OF 7.5÷10 MeV |
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A.A. Bryazginª, V.L. Auslender, K.N. Chernov, V.G. Cheskidov, B.L. Factorovich, V.A. Gorbunov, I.V. Gornakov, G.I. Kuznetsov, I.G. Makarov, N.V. Matyash, G.N. Ostreiko, A.D. Panfilov, G.V. Serdobintsev, V.V. Tarnetsky, M.A. Tiunov, A.A. Tuvik Budker Institute of Nuclear Physics Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia Abstract At Budker INP SB RAS, a single module for a new 100 kW industrial accelerator with electron energy of 7.5÷10 MeV has been successfully tested in pulsed operating regime. The accelerator operates at 176 MHz, expected wall plug to electron energy efficiency is 25÷30%. The paper presents the accelerator concept together with simulation results for the accelerating structure, beam injection and dynamics. The obtained structure electron efficiency of 67% and average electron beam current are close to the expected values. Improvements of beam transportation and energy spectrum due to the injection regime optimization were experimentally proven. The results obtained are discussed. ª – corresponding author |
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DEVELOPMENT OF THE ECR ION SOURCES FOR THE FLNR (JINR) CYCLOTRONS |
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S.L. Bogomolovª, G.G. Gulbekian, A.A. Efremov Joint Institute for Nuclear Research, Dubna, Russia ª – corresponding author |
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No paper Slides |
Contribution not received |
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INDUSTRIAL HIGH ENERGY ELECTRON ACCELERATORS TYPE ILU |
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V.L. Auslender, V.V. Bezuglov, A.A. Bryazginª, V.A. Gorbunov, B.L. Faktorovich, E.N. Kokin, M.V. Korobeynikov, A.N. Lukin, I.G. Makarov, M.A. Tiunov, V.E. Nekhaev, A.D. Panfilov, V.M. Radchenko, A.V. Sidorov, E.A. Shtarklev, V.V. Tarnetcski, V.O. Tkachenko, L.A. Voronin Budker Institute of Nuclear Physics Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia Abstract The report describes ILU type industrial electron accelerators. It describes their main parameters, design, principle of action, electron beam extraction devices, wide set of auxiliary equipment for various technological processes and ways of their usage. ª – corresponding author |
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TECHNOLOGICAL LINE FOR PROTON IRRADIATION OF SEMICONDUCTOR STRUCTURES |
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V.S. Stolbunovª¹, V.N. Gubarev², A.M. Surma², D.Ju. Semenov³ ¹Alikhanov Institute for Theoretical and Experimental Physics, Moscow, Russia ²Federal State Unitary Enterprise Research The Lenin's All-Russia Electrotechnical Institute, Moscow, Russia ³Proton-Electrotex JSC, Orel, Russia Abstract The technological line was created at the proton linear accelerator I-2 for irradiation of semiconductor structures with the 25 MeV proton beam aiming improvement of operation parameters for high power siliceous devices such as the following: thyristors, bipolar transistors, diodes and others. Details of the line construction and specialty of irradiation technology using are presented. ª – corresponding author |
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No paper |
Contribution not received |
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INDUSTRIAL HIGH ENERGY ELECTRON ACCELERATORS TYPE ILU |
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V.L. Auslender, V.V. Bezuglov, A.A. Bryazginª, V.A. Gorbunov, B.L. Faktorovich, E.N. Kokin, M.V. Korobeynikov, A.N. Lukin, I.G. Makarov, M.A. Tiunov, V.E. Nekhaev, A.D. Panfilov, V.M. Radchenko, A.V. Sidorov, E.A. Shtarklev, V.V. Tarnetcski, V.O. Tkachenko, L.A. Voronin Budker Institute of Nuclear Physics Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia Abstract The report describes ILU type industrial electron accelerators. It describes their main parameters, design, principle of action, electron beam extraction devices, wide set of auxiliary equipment for various technological processes and ways of their usage. ª – corresponding author |
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