Talk -
Talk transparencies
GIF rate measurements
Fig.1a -
Event dump, TDC slice vs Channel #, 96 ch board #1, Chip 1, GIF K=5 (40 kHz/wire group)
Fig.1b -
Event dump, TDC slice vs Channel #, 96 ch board #4, Chip 1, GIF K=5
Fig.1c -
Simulated event dump, TDC slice vs Channel #, GIF K=5
Fig.2 -
GIF rate vs anode wire group #, 96 ch board, GIF K=5
Fig.3 -
Detected in wire group # 23 GIF rate vs attenuation factor K, HV=3.6 kV,
96 ch board
Fig.4 -
Detected in wire group # 23 GIF rate vs attenuation factor K, HV=3.6 kV,
16 ch board
Fig.5 -
CSC + anode front end noise rate vs anode wire group #, 96 ch boards, GIF off,
HV=3.6 kV
Single layer anode efficiency vs HV
Fig.6 -
Wire group #23, layer 3 anode efficiency and inefficiency vs HV, Qthr=20 fC,
96 ch board, GIF off
Fig.7a -
Wire group #23, layers anode efficiency vs HV, Qthr=20 fC,
16 ch board, GIF off
Fig.7b -
Wire group #23, layers anode efficiency vs HV, Qthr=30 fC,
16 ch board, GIF off
Fig.7c -
Wire group #23, layers anode efficiency vs HV, Qthr=30 fC,
16 ch board, GIF K=1
Fig.7d -
Wire group #23, layers anode inefficiency vs HV, Qthr=30 fC,
16 ch board, GIF K=1
Fig.8 -
HV(eff=95%) parameter vs layer #
Hit patterns used in bunch crossing tagging
Fig.9 -
Hit patterns table
Fig.10 -
Pattern finding efficiency vs HV for 4 and more hits from 6
Bunch crossing tagging efficiency in 25 nsec gate
Fig.11 -
Single layer and the 2-nd earliest hit time distributions
Fig.12 -
BX tagging efficiency (in 25 nsec gate) and time resolution vs HV for
the 1-st, 2-nd and 3-rd
earliest hits
Fig.13 -
The same as an example of the bad set of runs
Fig.14 -
The same as an example of the "too good to be true" set of runs
Fig.15 -
BX tagging efficiency (in 25 nsec gate) vs GIF rate at HV=3.6 kV for
the 2-nd earliest hit
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Last modified: Feb 22 16:00:00 CST 2000