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CLIC: a Two-Beam Multi-TeV $e^{\pm}$ Linear Collider

Authors :
Delahaye, Jean-Pierre
Wilson, Ian
Assmann, R.
Becker, F.
Bossart, R.
Braun, Hans-Heinrich
Burkhardt, H.
Carron, G.
Coosemans, W.
Corsini, R.
D'Amico, E.
Doebert, S.
Fartoukh, S.
Ferrari, A.
Geschonke, G.
Godot, J.C.
Groening, L.
Guignard, G.
Hutchins, S.
Jeanneret, B.
Jensen, E.
Jowett, J.
Kamitani, T.
Millich, A.
Pearce, Peter D.
Perriollat, F.
Pittin, R.
Potier, R.
Riche, A.
Rinolfi, L.
Risselada, T.
Royer, P.
Ruggiero, F.
Schulte, D.
Suberlucq, G.
Syratchev, I.
Thorndahl, L.
Trautner, H.
Verdier, A.
Wuensch, Walter
Zhou, F.
Zimmermann, F.
Napoly, O.
Publication Year :
2000

Abstract

The CLIC study of a high-energy (0.5 - 5 TeV), high-luminosity (1034 - 1035 cm-2 sec-1) e+e- linear collider is presented. Beam acceleration using high frequency (30 GHz) normal-conducting structures operating at high accelerating fields (150 MV/m) significantly reduces the length and, in consequence, the cost of the linac. Using parameters derived from general scaling laws for linear colliders, the beam stability is shown to be similar to lower frequency designs in spite of the strong wake-field dependency on frequency. A new cost-effective and efficient drive beam generation scheme for RF power production by the so-called "Two-Beam Acceleration" method is described. It uses a thermionic gun and a fully-loaded normal-conducting linac operating at low frequency (937 MHz) to generate and accelerate the drive beam bunches, and RF multiplication by funnelling in compressor rings to produce the desired bunch structure. Recent 30 GHz hardware developments and CLIC Test Facility (CTF) results are described.

Details

Language :
English
Database :
OpenAIRE
Accession number :
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