| Paper | Title | Other Keywords | Page |
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| MOYCH03 | Technology Developments for CLIC | quadrupole, collider, alignment, linear-collider | 25 |
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| Just after the publication of its Conceptual Design Report (CDR) the CLIC study has made detailed plans for necessary technology developments in the coming years. This program includes the development of fully working prototypes of several technical subsystems as well as first pre-series or industialization concepts of components needed in large identical quantities. The presentation will explain the development program and show in particular fields for potential collaboration. | |||
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Slides MOYCH03 [4.792 MB] | ||
| FRBOR02 | Creating Stronger Accelerator Beams | collider, linear-collider, positron, luminosity | 216 |
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| Recently, at an ILC meeting in Tokyo, the Electron, Anti-Electron Beam strength was said to be about 7 milliamps, for the newest design of the planned International Linear Collider. This was about 1000 times the strength of Colliders in the last decade. This author would like to explore a different way of feeding Anti-Electrons and Electrons into a Collider that should increase the Potential Beam Strength by about 100 times. The question then is how to use Klystrons to maintain an enhanced Beam Strength and whether the larger number of Electrons and Anti-Electrons would cause too much damage to the Accelerator walls. This method should work for Protons and Anti-Protons as well. | |||
| WEPPC047 | Operational Experience with 55 MeV Pulsed RTM | linac, high-voltage, controls, radiation | 538 |
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Operational experience with 55 MeV RTM * is reported. After RTM commissioning described in * it was installed in specially built bunker with 60-80 cm thick barite concrete walls placed in accelerator hall in order to protect detector equipment from parasitic radiation. New equipment was installed at RTM including new pulsed modulator, high power vacuum window and circulator, new cooling system, additional steering coils. Control system software based on LabView was also modified to make RTM tuning easier. Introduced changes made RTM operation more stable, beam transmission through RTM was improved. After re-commissioning RTM is used for experiments in nuclear physics, in PET isotope production research, in explosive detection experiments etc.
*A.I.Karev, A.N.Lebedev, V.G.Raevsky, A.N.Ermakov, A.N.Kamanin, V.V.Khankin, N.I.Pahomov, V.I.Shvedunov, etc., 55 MeV special purpose race-track microtron commissioning, in Proc. RuPAC-2010, p.316-318 |
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| WEPPC048 | Status of 1 MeV 25 kW CW Electron Accelerator | electron, gun, vacuum, high-voltage | 541 |
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| Status of 1 MeV 25 kW continuous wave (CW) linear electron accelerator for radiation technologies which is under construction at SINP MSU is described. Driven by 50 kW CW klystron on-axis coupled standing wave accelerating structure was optimized, manufactured and tuned. The results of accelerating structure measurements and tuning are presented. RF system, high voltage, vacuum and control systems of the accelerator are described. New magnetic system forming output beam irradiation field is also described. | |||