References

1. General Introduction

Prospects for physics (Section 1.1)

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[1.2] The Physics Study Group for CLIC

[1.3] J.-P. Delahaye et al., The CLIC study of a multi-TeV e ⁺ e ^- linear collider, Proc. Part. Accel. Conf. (PAC99), New York, 1999, Eds. A. Luccio and W. MacKay (IEEE Computer Soc. Press, Piscataway, N. J., 1999).

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[1.6] J.-P. Delahaye, G. Guignard, T. Raubenheimer and I. Wilson, Scaling laws for e+/e- linear colliders, Nucl. Instrum. Methods Phys. Res. A 421 (1999) 369-405.

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[2.1] L. Rinolfi, A CLIC injector complex for the main beams, CLIC Note 354 (1997).

[2.2]J. Condoning, Polarized RF guns, SLAC-PUB-7854 (1998).

[2.3] The NLC Design Group, Zeroth Order Design Report for the Next Linear Collider, SLAC Report 474 (1996), p. 89.

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[2.7] E.T. D'Amico, G. Guignard and T.O. Raubenheimer, How to obtain a bunch length of 50 mm in the CLIC main linac, CLIC Note 355 (March 1998).

[2.8] E.T. D'Amico, G. Guignard and T.O. Raubenheimer, The CLIC main linac bunch compressor, Proc. 6th Eur. Part. Accel. Conf. (EPAC98), Stockholm, 1998, Eds. S. Myers, L. Liljeby and C. Petit-Jean-Genaz (IOP, Bristol, 1999).

[2.9] E.T. D'Amico and G. Guignard, First-order design of a new type of isochronous arc, CERN SL/95-120 (1997).

[2.10] D. Schulte, Emittance preservation in the main linac of CLIC, Proc. 6th Eur. Part. Accel. Conf. (EPAC98), Stockholm, Eds. S. Myers, L. Liljeby and C. Petit-Jean-Genaz (IOP, Bristol, 1999) and CERN-PS 98-018-LP (1998).

[2.11] D. Schulte, I. Syratchev, Beam loading compensation in the main linac of CLIC, to be published in Proc. Lin. Accel. Conf. (LINAC2000), Monterey, 2000.

[2.12] A. Millich, Computations of wakefield for CLIC DLWG, CLIC Note 137 and CERN-SL/91-27 (CO) (1991).

[2.13] T.O. Raubenheimer and D. Schulte, The ballistic alignment method, Proc. Part. Accel. Conf. (PAC99), New York, 1999, Eds. A. Luccio and W. MacKay (IEEE Computer Soc. Press, Piscataway, N. J., 1999) and CERN-PS 99-024-LP (1999).

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[2.19] E.T. D'Amico and G. Guignard, A trajectory correction based on multi-step lining-up for CLIC main linac, CLIC Note 400 (April 1999).

[2.20] G. Guignard and J. Hagel, MUSTAFA environment description and users's guide with applications to CLIC, CLIC Note 349 and CERN-SL 98-02 (1998).

[2.21] D. Schulte, Simulations of an intra-pulse interaction point feedback for NLC, CLIC Note 415 (1999).

[2.22] E.T. D'Amico, G. Guignard and D. Schulte, CLIC main linac beam simulations, Proc. of VIIIth Int. Workshop on Linear Colliders (LC99), Frascati, 1999, Eds. J.-P. Delahaye, G. Guignard, K. Hübner et al.

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[2.29] JLC Group, JLC-I design, KEK Report 92-16 (1992).

[2.30] Conceptual Design of a 500 GeV e ⁺ e ^- Linear Collider with Integrated X-ray Laser Facility, Eds. R. Brinkmann, G. Materlik, J. Rossbach and A. Wagner, DESY 1997-048 (1997).

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[2.32] N. Akasaka et al., JLC Design Study, High Energy Accel. Research Org., Tsukuba, Japan (1997), ftp://lcdev.kek.jp/pub/DesignStudy/

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[2.37] J. Spencer in Zeroth Order Design Report for the Next Linear Collider, C. Adolphsen et al., report submitted to Snowmass 1996, SLAC Report 474 (1996), Section 11.8.

[2.38] S. Caspi et al., Design of a Nb ₃ Sn high gradient low-beta quadrupole magnet,15th Int. Conf. on Magnet Technology, Beijing, China, 1997.

[2.39] K. Oide, Final focus system with odd dispersion scheme, Proc. 15th Int. Conf. on High Energy Accel., Hamburg, 1992, Ed. J. Rossbach (World Scientific, Singapore, 1993).

[2.40] O. Napoly, CLIC 3 TeV interaction region and final focus studies, CERN-SL 99-054 and CLIC Note 414 (1999).

[2.41] K. Oide, Phys. Rev. Lett. 61 (1988) 1713.

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[2.43] L. Barnett, D. Hundzinger, Q. King, Developments in the high precision control of magnet currents for LHC, Proc. Part. Accel. Conf. (PAC99), New York, 1999, Eds. A. Luccio and W. MacKay (IEEE Computer Soc. Press, Piscataway, N. J., 1999).

[2.44] R. Assmann et al., Design status of the CLIC 3-TeV beam delivery system and damping rings, Proc. 7th Eur. Part. Accel. Conf. (EPAC2000), Vienna, June 2000.

[2.45] O. Napoly, private communication (2000).

[2.46] R. Brinkmann, private communication (1999).

[2.47] H. Burkhardt, Background in future e ⁺ e ^- linear colliders, CERN-SL 99-057 (AP) and CLIC Note 416 (1999).

[2.48] R. Brinkmann, Estimate of beam halo for TESLA, Proc. of VIIIth Int. Workshop on Linear Colliders (LC99), Frascati, 1999, Eds. J.-P. Delahaye, G. Guignard, K. Hübner et al.

[2.49] N. Akasaka et al., JLC Design Study, KEK, Tsukuba (1997).

[2.50] D. Schulte, High energy beam-beam effects in CLIC, Proc. Part. Accel. Conf. (PAC99), New York, 1999, Eds. A. Luccio and W. MacKay (IEEE Computer Soc. Press, Piscataway, N. J., 1999) and CERN-PS 99-017 (1999).

[2.51]J.-B. Jeanneret and E. Wildner, Thermal and acoustic effects in CLIC beam absorbers, CERN-SL- 99-072 (AP)and CLIC Note 421 (1999).

[2.52] M. Giesch, Twin aperture quadrupoles for the LHC cleaning insertions, 14th Int. Conf. Magnet Technology, MT-14, Tampere, Finland, 1995, Eds. L. Kettunen, K. Forsman, A. Koski, R. Mikkonen [IEEE Trans. Magn. 32 (1996)].

[2.53] D. Schulte, Beam-beam simulations with GUINEA-PIG, International Computational Accelerator Physics Conference (ICAP98), Monterey, 1998 and CERN-PS 99-014-LP (1999).

[2.54] D. Schulte, Background at linear colliders, Workshop on the Development of Future Electron-Positron Colliders for Particle Physics Studies and for Research Using Free Electron Lasers, Lund, 1999, Eds. G. Jarlskog, U. Mjörnmark and T. Sjöstrand (Fysiska Inst. Lund, 1999), p. 59 and CERN-PS 99-069 (LP) (1999).

[2.55] D. Schulte, Study of the Electromagnetic and Hadronic Background in the Interaction Region of the TESLA Collider, Ph.D. thesis, TESLA 97-014, Univ. of Hamburg, Hamburg (1997).

[2.56] O. Napoly and D. Schulte, Luminosity monitor studies for TESLA, Proc. 19th Int. Lin. Accel. Conf. (LINAC98), Chicago, 1998 and TESLA 97-17 (1997).

[3.1] A.M. Sessler, The FEL as a power source for a high gradient accelerating structure, AIP Conf. Proc. 91 (Ed. P.J. Channel), p. 154 (1982).

[3.2] H.H. Braun et al., The CLIC RF Power Source. A Novel Scheme of Two-Beam Acceleration for Electron-Positron Linear Colliders, CERN 99-06 (1999).

[3.3] R. Corsini and J.-P. Delahaye, The CLIC multidrive-beam scheme, CERN/PS 98-008 (LP) (1998) and CLIC Note 331 (1998).

[3.4] L. Rinolfi, O. Kester and R. Rao, Beam emittance measurements from CERN thermionic gun, Proc. 3rd Eur. Part. Accel. Conf. (EPAC92), Berlin, 1992, Eds. H. Henke, H. Homeyer and C. Petit-Jean-Genaz (Edition Frontières, Gif-sur-Yvette, 1992) and CERN/PS/92-12 (LP) (1992).

[3.5] B. Mouton, The PARMELA program, Report LAL-SERA 93-455, Laboratoire de l'Accélérateur Linéaire, Orsay, France (1993).

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[3.7] L. Thorndahl in H.H. Braun et al., The CLIC RF Power Source, CERN 99-06 (1999).

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[3.10] M. Luong, private communication.

[3.11] R.H. Siemann, Linear colliders: the last ten years and the next ten years, SLAC-PUB-6417 (1994).

[3.12] L. Thorndahl, private communication.

[3.13] A. Beunas, Thomson Tubes Electroniques, Paris, private communication.

[3.14] P.D. Pearce et al., A klystron-modulator RF power system for the CLIC drive-beam accelerators, 24th International Power Modulator Symposium, Norfolk, Virginia, June 2000.

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[3.16] L. Thorndahl, private communication.

[3.17] G. Guignard and E.T. D'Amico, A new family of isochronous arcs, CERN/SL 95-24 (AP) and CLIC Note 280 (1995).

[3.18] R.C. York and D.R. Douglas, Optics of the CEBAF CW superconducting accelerator, Proc. 12th Particle Accelerator Conference, Washington, DC, 1987 (IEEE, New York, 1987).

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[3.20] E.T. D'Amico and G. Guignard, Tunable achromats and CLIC applications, Proc. EPAC2000, Vienna, June 2000.

[3.21] A. Riche, Maximum energy transfer efficiency in CLIC drive beam and proposal for a method of focusing, CLIC Note 266 (1994)

[3.22] A. Riche and D. Schulte, The drive-beam decelerator of CLIC, Proc. 19th Int. Lin. Accel. Conf. (LINAC98), Chicago, 1998 and CERN-PS 98-043-LP (1998).

[3.23] A. Riche, To be published.

[3.24] D. Schulte, PLACET: a program to simulate drive beams, Proc. EPAC2000, Vienna, June 2000.

[3.25] A. Millich, A. Riche and D. Schulte, Beam stability in the CLIC drive-beam decelerator using structures of high-order symmetry, Proc. Part. Accel. Conf. (PAC99), New York, 1999, Eds. A. Luccio and W. MacKay (IEEE Computer Soc. Press, Piscataway, N. J., 1999) and CERN-PS 99-028-LP (1999).

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[3.27] G. Carron and L. Thorndahl, Impedance and loss factor measurements on a CLIC Transfer Structure (CTS), Proc. 3rd Eur. Part. Accel. Conf. (EPAC92), Berlin, 1992, Eds. H. Henke, H. Homeyer and C. Petit-Jean-Genaz (Edition Frontières, Gif-sur-Yvette, 1992).

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[3.30] R. Pitthan, private communication.

[4.1] J.-B. Jeanneret and E. Wildner, Thermal and acoustic effects in CLIC beam absorbers, CLIC Note 421 and CERN/SL-99-072 (1999).

[4.2] D.R. Walz and L.R. Lucas, SLAC-PUB-555 (1969).

[5.1] K. Aulenbacher et al., Results from the CLIC Test Facility (CTF1), CERN/PS/96-28 (LP) and CLIC Note 310 (1996).

[5.2] H.H. Braun for the CTF Team, Experimental results and technical research and development at CTF2, Proc. 7th Eur. Part. Accel. Conf. (EPAC2000), Vienna, 2000.

[5.3] CLIC Study Team, Proposals for future CLIC studies and a new CLIC Test Facility (CTF3), CLIC Note 402 (July 1999).

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[5.5] E.T. D'Amico and G. Guignard, Tunable achromats and CLIC applications, Proc. 7th Eur. Part. Accel. Conf. (EPAC2000), Vienna, 2000.

[5.6] R. Corsini, J.-P. Potier, L. Rinolfi, T. Risselada and J.C. Thomi, First micro-bunch measurements in EPA as isochronous ring at 500 MeV, PS/LP Note 99-03 (MD) (1999).