A GEM Detector System for an Upgrade of the CMS Muon Endcaps
A GEM Detector System for an Upgrade of the CMS Muon Endcaps
A GEM Detector System for an Upgrade of the CMS Muon Endcaps
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D Full simulation results <strong>for</strong> trigger studies with <strong>GEM</strong><br />
Fig. 80-91 show simulated trigger turn-on curves <strong>for</strong> trigger towers 14-16, i.e. <strong>the</strong> L1 trigger efficiencies <strong>for</strong> all geometry<br />
variations <strong>an</strong>d <strong>for</strong> three different pT thresholds (16, 50, <strong>an</strong>d 140 GeV<br />
c ) as a function <strong>of</strong> <strong>the</strong> true muon tr<strong>an</strong>sverse momentum.<br />
Similar results <strong>for</strong> trigger tower 13 c<strong>an</strong> be found in chapter 5.<br />
Ideal Realistic<br />
Ideal Realistic<br />
Ideal Realistic<br />
Figure 80: L1 <strong>GEM</strong>+RPC trigger efficiency curves in trigger tower 14 <strong>for</strong> base geometry. Rows correspond to 3<br />
different pT thresholds <strong>of</strong> 16, 50, <strong>an</strong>d 140 GeV<br />
c , respectively. Left column shows results <strong>for</strong> ideal chamber model,<br />
right <strong>for</strong> realistic chamber model.<br />
93