| Paper |
Title |
Page |
| MOPCH091 |
An Alternative Nonlinear Collimation System for the LHC
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246 |
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- J. Resta-López, R.W. Assmann, S. Redaelli, J. Resta-López, G. Robert-Demolaize, D. Schulte, F. Zimmermann
CERN, Geneva
- A. Faus-Golfe
IFIC, Valencia
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The optics design of an alternative nonlinear collimation system for the LHC is presented. We discuss an optics scheme based on a single spoiler located in between a pair of skew sextupoles for betatron collimation. The nonlinear system allows opening up the collimator gaps and, thereby reduces the collimator impedance, which presently limits the LHC beam intensity. After placing secondary absorbers at optimum locations behind the spoiler, we analyze the beam losses and calculate the cleaning efficiency from tracking studies. The results are compared with those of the conventional linear collimation system.
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| MOPLS061 |
Optimization of the e-e- Option for the ILC
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685 |
| |
- M. Alabau Pons, M. Alabau Pons, A. Faus-Golfe
IFIC, Valencia
- R. Appleby
UMAN, Manchester
- P. Bambade, O. Dadoun
LAL, Orsay
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The e-e- running mode is one of the interesting physics options for the International Linear Collider. The luminosity for e-e- collisions is reduced by mutual defocusing due to the strong electromagnetic fields that the bunches experience during collisions. The resulting beamstrahlung energy loss and beam-beam deflection angles as function of the vertical transverse offset are different compared to the e+e- collisions. In this paper, the dependence of these observables with the offset for different beam sizes has been analysed to optimize performances for the e-e- mode, taking into account the requirements of the beam-beam deflection based intra-train feedback system. A first study of the implications for the final focus and extraction line optics is also presented for the cases of the 2mrad and 20mrad ILC base line crossing angle geometries.
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| WEXFI03 |
Non-linear Collimation in Linear and Circular Colliders
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1892 |
| |
- A. Faus-Golfe
IFIC, Valencia
- J. Resta-López, F. Zimmermann
CERN, Geneva
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We describe the concept on nonlinear collimation of beam halo in linear and circular colliders. In particular we present the application of such a concept in two different cases: the energy collimation system for CLIC at 3 TeV c.m. energy and a betatron collimation system for LHC at 14 TeV c.m. energy. For each case, the system properties, like chromatic bandwidth, collimator survival and cleaning efficiency, are evaluated and compared with those of the corresponding linear collimation system.
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