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Wollmann, D.

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MOPD45 Predicted Performance of Combined Cleaning with DS-Collimators in the LHC 172
  • D. Wollmann, R.W. Assmann, R. Bruce, S. Redaelli, A. Rossi
    CERN, Geneva

The LHC has two dedicated cleaning insertions: IR3 for momentum cleaning and IR7 for betatron cleaning. During the first months of beam experience the presently installed Phase-I system performed as predicted earlier in detailed studies with tracking simulations. As the current system is not sufficient to allow LHC operation with nominal or ultimate intensity at 7TeV/c, simulations with an upgraded system are ongoing to overcome these limitations. In this contribution a collimation scheme with combined momentum and betatron cleaning in IR3 with additional collimators in the IR3 dispersion suppressor is presented. The predicted improvements compared to the Phase-I system and the limitations of this scheme are discussed.

TUO2C05 Operation Performance of the LHC Collimation 395
  • S. Redaelli, R.W. Assmann, R. Bruce, A. Rossi, D. Wollmann
    CERN, Geneva

The collimation system of the CERN Large Hadron Collider (LHC) was built to handled 360 MJ stored in the LHC beams and is one of the most advanced cleaning system built for accelerators. It consist of 88 ring collimators of various designs and materials, for a total of 352 degrees of freedom (4 motors per collimators), that provide a multi-stage cleaning of beam halo as well as a crucial role for the LHC machine protection. Collimator can be moved with functions of time to guarantee the optimum settings during energy ramp and betatron squeeze. The system has been commissioned with beam for the 3.5 TeV LHC run and has ensured a safe operation, providing a close to nominal cleaning performance in the initial LHC operational phases. In this paper, the setup procedure and the setting validation techniques are presented, the operational aspects and challenges are reviewed and the system performance is discussed.


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MOPD48 Leakage from LHC Dump Protection System 176
  • C. Bracco, R.W. Assmann, W. Bartmann, C. Boucly, R. Bruce, E. Carlier, B. Dehning, B. Goddard, E.B. Holzer, M. Meddahi, A. Nordt, S. Redaelli, A. Rossi, M. Sapinski, J.A. Uythoven, D. Wollmann
    CERN, Geneva

A single-sided mobile diluter (TCDQ) and a horizontal secondary collimator(TCSG) are installed in the extraction region of the LHC to protect the downstream elements from damage in case of asynchronous beam dump. These collimators have to be precisely setup to shield the arc aperture at 450 GeV, the triplet apertures and the tungsten tertiary collimators (TCT) at the low-beta collision points. During the LHC beam commissioning, several machine protection tests were carried out to validate collimator setup and hierarchy at different beam energies and intensities. The outcomes of these measurements are presented in this paper together with the results of particle tracking simulations for asynchronous beam dump. These studies allowed to quantify the leakage expected from dump protection collimators to the downstream elements, and to validate the system performance towards higher beam intensity.