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Search for New Physics in the Compact Muon Solenoid (CMS) Experiment and the Response of the CMS Calorimeters to Particles and Jets.

DE2008936638

Publication Date	2008
Personal Author	Gumus, K. Z.
Page Count	113
Abstract	A Monte Carlo study of a generic search for new resonances beyond the Standard Model (SM) in the CMS experiment is presented. The resonances are axigluon, coloron, E(sub 6) diquark, excited quark, W(prime), Z(prime), and the Randall-Sundrum graviton which decay to dijets. The dijet resonance cross section that the CMS can expect to discover at a 5(sigma) significance or to exclude at 95% confidence level for integrated luminosities of 100 pb(sup -1), 1 fb(sup -1), and 10 fb(sup -1) is evaluated. It is shown that a 5(sigma) discovery of a multi-TeV dijet resonance is possible for an axigluon, excited quark, and E(sub 6) diquark. However, a 5(sigma) discovery can not be projected with confidence for a W(prime), Z(prime) and the Randall-Sundrum graviton. On the other hand, 95% CL exclusion mass regions can be measured for all resonances at high luminosities. In the second part of this dissertation, the analyses of the 2006 test beam data from the combined electromagnetic and hadronic barrel calorimeters are presented. The CMS barrel calorimeters response to a variety of beam particles in a wide momenta range (1 to 350 GeV/c) is measured. Furthermore, using these beam data, the expected performance of the barrel calorimeters to jets is predicted.
Keywords	Microns Solenoids Elementary Particles Calorimeters Cross sections Decay Gravitations Muons Performance Resonance Standard model Compact Muon Solenoid (CMS) Monte Carlo method Branching ratio Quarks Luminosity
Source Agency	Technical Information Center Oak Ridge Tennessee
Corporate Authors	Texas Tech Univ., Lubbock.; Fermi National Accelerator Lab., Batavia, IL.
Supplemental Notes	Sponsored by Fermi National Accelerator Lab., Batavia, IL.
Document Type	Technical Report
NTIS Issue Number	200911

Search for New Physics in the Compact Muon Solenoid (CMS) Experiment and the Response of the CMS Calorimeters to Particles and Jets.

Search for New Physics in the Compact Muon Solenoid (CMS) Experiment and the Response of the CMS Calorimeters to Particles and Jets.
DE2008936638

Publication Date	2008
Personal Author	Gumus, K. Z.
Page Count	113
Abstract	A Monte Carlo study of a generic search for new resonances beyond the Standard Model (SM) in the CMS experiment is presented. The resonances are axigluon, coloron, E(sub 6) diquark, excited quark, W(prime), Z(prime), and the Randall-Sundrum graviton which decay to dijets. The dijet resonance cross section that the CMS can expect to discover at a 5(sigma) significance or to exclude at 95% confidence level for integrated luminosities of 100 pb(sup -1), 1 fb(sup -1), and 10 fb(sup -1) is evaluated. It is shown that a 5(sigma) discovery of a multi-TeV dijet resonance is possible for an axigluon, excited quark, and E(sub 6) diquark. However, a 5(sigma) discovery can not be projected with confidence for a W(prime), Z(prime) and the Randall-Sundrum graviton. On the other hand, 95% CL exclusion mass regions can be measured for all resonances at high luminosities. In the second part of this dissertation, the analyses of the 2006 test beam data from the combined electromagnetic and hadronic barrel calorimeters are presented. The CMS barrel calorimeters response to a variety of beam particles in a wide momenta range (1 to 350 GeV/c) is measured. Furthermore, using these beam data, the expected performance of the barrel calorimeters to jets is predicted.
Keywords	Microns Solenoids Elementary Particles Calorimeters Cross sections Decay Gravitations Muons Performance Resonance Standard model Compact Muon Solenoid (CMS) Monte Carlo method Branching ratio Quarks Luminosity
Source Agency	Technical Information Center Oak Ridge Tennessee
Corporate Authors	Texas Tech Univ., Lubbock.; Fermi National Accelerator Lab., Batavia, IL.
Supplemental Notes	Sponsored by Fermi National Accelerator Lab., Batavia, IL.
Document Type	Technical Report
NTIS Issue Number	200911