1 import FWCore.ParameterSet.Config
as cms
6 this method returns different parameterizations of the leakage current for different versions 7 TDR_{600V,800V} - TDR based parameterizations for operations at -30C and 600V or 800V 8 CERN21_{600V,800V}_{annealing} - 2021 CERN-based parameterizations for operations at -30C, 600V or 800V and different annealing times 9 if version is unknown a ValueError exception is raised 12 if version==
'TDR_600V':
13 return [0.993,-42.668]
14 elif version==
'TDR_800V':
15 return [0.996,-42.464]
16 elif version==
'CERN21_600V_10m':
18 elif version==
'CERN21_600V_30m':
20 elif version==
'CERN21_600V_90m':
22 elif version==
'CERN21_600V_120m':
24 elif version==
'CERN21_800V_10m':
26 elif version==
'CERN21_800V_30m':
28 elif version==
'CERN21_800V_90m':
30 elif version==
'CERN21_800V_120m':
33 raise ValueError(
'version={} is unknown to retrieve Ileak parameterization for HGC Si sensors'.
format(version))
39 this method returns different parameterizations of the charge collection efficiency (CCE) 40 for different sensor types (sensor) and measurement versions (version) 42 version = TDR_{600V,800V} - TDR based measurements at different voltages 43 TTU_{600V,800V} - Texas Tech based measurements at different voltages 44 CERN21_{600V,800V}_{annealing} - CERN2021 based measurements at different voltages and annealing times 45 if the pair (sensor,version) is unknown a ValueError exception is raised 48 if version==
'TDR_600V':
49 if sensor==120 :
return [3.5e+15,10.31,-0.2635]
50 elif sensor==200:
return [9e+14,8.99,-0.241]
51 elif sensor==300:
return [3e+14,10.16,-0.2823]
52 elif version==
'TDR_800V':
53 if sensor==120 :
return [3.5e+15,10.39,-0.2638]
54 elif sensor==200:
return [1.5e+15,10.41,-0.2779]
55 elif sensor==300:
return [5e+14,12.59,-0.3501]
56 elif version==
'CERN21_600V_10m':
57 if sensor==120 :
return [1.35e+15,9.591,-0.2452]
58 elif sensor==200:
return [9e+14,11.95,-0.3186]
59 elif sensor==300:
return [5.85e+14,9.701,-0.2668]
60 elif version==
'CERN21_600V_30m':
61 if sensor==120 :
return [1.35e+15,8.362,-0.2105]
62 elif sensor==200:
return [9e+14,15.48,-0.4191 ]
63 elif sensor==300:
return [5.85e+14,9.89,-0.2699]
64 elif version==
'CERN21_600V_90m':
65 if sensor==120 :
return [1.35e+15,7.769,-0.1954]
66 elif sensor==200:
return [9e+14,8.983,-0.2354]
67 elif sensor==300:
return [5.85e+14,8.79,-0.2377]
68 elif version==
'CERN21_600V_120m':
69 if sensor==120 :
return [1.35e+15,7.119,-0.1775]
70 elif sensor==200:
return [9e+14,8.647,-0.2257 ]
71 elif sensor==300:
return [5.85e+14,9.369,-0.2544]
72 elif version==
'CERN21_800V_10m':
73 if sensor==120 :
return [1.35e+15,8.148,-0.2031]
74 elif sensor==200:
return [9e+14,7.32,-0.1833]
75 elif sensor==300:
return [5.85e+14,11.45,-0.3131]
76 elif version==
'CERN21_800V_30m':
77 if sensor==120 :
return [1.35e+15,7.097,-0.1731]
78 elif sensor==200:
return [9e+14,13.68,-0.3653]
79 elif sensor==300:
return [5.85e+14, 10,-0.269]
80 elif version==
'CERN21_800V_90m':
81 if sensor==120 :
return [1.35e+15,6.387,-0.155]
82 elif sensor==200:
return [9e+14,7.739,-0.198]
83 elif sensor==300:
return [5.85e+14,7.701,-0.2023]
84 elif version==
'CERN21_800V_120m':
85 if sensor==120 :
return [1.35e+15,5.997,-0.1443]
86 elif sensor==200:
return [9e+14,7.172,-0.1821]
87 elif sensor==300:
return [5.85e+14,7.855,-0.2068]
89 raise ValueError(
'sensor={} version={} is unknown to retrieve CCE parameterization for HGC Si sensors'.
format(sensor,version))
def hgcSiSensorCCE(sensor, version)
def hgcSiSensorIleak(version)
1.8.14