IPAC2012 - List of Authors (Deacon, L.C.)

Paper	Title	Page
MOPPR046	CLIC Luminosity Monitoring	885
	A. Apyan, L.C. Deacon, E. Gschwendtner, T. Lefèvre CERN, Geneva, Switzerland R. Appleby, S.C. Tygier UMAN, Manchester, United Kingdom
	The CLIC post-collision line is designed to transport the un-collided beams and the products of the collided beams with a total power of 14MW to the main beam dump. Luminosity monitoring for CLIC is based on high energy muons produced by bremsstrahlung photons in the main dump. Threshold Cherenkov counters are proposed for the detection of these muons. The expected rates and layout for these detectors is presented. Another method for luminosity monitoring is to directly detecting the bremsstrahlung photons in the post-collision line; Full Monte Carlo simulation has been performed to address its feasibility.

TUPPR020	Updates to the CLIC Post-collision Line	1855
	L.C. Deacon CERN, Geneva, Switzerland
	The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14 MW per beam, are disrupted at the interaction point due to the very strong beam-beam effect. The disrupted beam has a power of 10 MW. Some 3.5 MW reaches the main dump in the form of beamstrahlung photons, and about 0.5 MW of e⁺ and e^- coherent pair particles with a very broad energy spectrum as well as the lower energy disrupted beam particles need to be disposed of along the post collision line. Calculations for the energy deposition in the magnet coils and the resulting magnet lifetimes for various shielding configurations are presented.

Paper

Title

Page

CLIC Luminosity Monitoring

885

A. Apyan, L.C. Deacon, E. Gschwendtner, T. Lefèvre
CERN, Geneva, Switzerland
R. Appleby, S.C. Tygier
UMAN, Manchester, United Kingdom

The CLIC post-collision line is designed to transport the un-collided beams and the products of the collided beams with a total power of 14MW to the main beam dump. Luminosity monitoring for CLIC is based on high energy muons produced by bremsstrahlung photons in the main dump. Threshold Cherenkov counters are proposed for the detection of these muons. The expected rates and layout for these detectors is presented. Another method for luminosity monitoring is to directly detecting the bremsstrahlung photons in the post-collision line; Full Monte Carlo simulation has been performed to address its feasibility.

TUPPR020

Updates to the CLIC Post-collision Line

1855

L.C. Deacon
CERN, Geneva, Switzerland

The 1.5 TeV Compact Linear Collider (CLIC) beams, with a total power of 14 MW per beam, are disrupted at the interaction point due to the very strong beam-beam effect. The disrupted beam has a power of 10 MW. Some 3.5 MW reaches the main dump in the form of beamstrahlung photons, and about 0.5 MW of e⁺ and e^- coherent pair particles with a very broad energy spectrum as well as the lower energy disrupted beam particles need to be disposed of along the post collision line. Calculations for the energy deposition in the magnet coils and the resulting magnet lifetimes for various shielding configurations are presented.