Single Quartz-fiber Tests: Ratio (pedestals subtracted)

For the single quartz-fiber tests, fibers were illuminated one by one and then all at once. Each quartz fiber illuminates three layers of a tower, with fiber 1 illuminating the first three layers and so on in consecutive order. These tests include runs 1071-1081. The ratio of mean ADC value for a single fiber illuminated to all fibers illuminated was calculated to eliminate gain differences. Towers with abnormal ratios show up as a zero on the graph.

Figure 1: Shows the ratio of the mean ACD value for one fiber used (Run 1072 - fiber 1 illuminated) to all fibers used (Run 1071 - all fibers illuminated) for a given tower and eta as a function of phi bin. Ratio is on the vertical axis and phi bin is on the horizontal axis.


Towers with abnormal ratios that were set to zero for Fig. 1:
r=0 tower 01TA09
r=0 tower 01TE02
r=0 tower 02TA02
r=0 tower 02TB10
r=0 tower 02TD02
r=0 tower 03TB09
r=0 tower 03TC02
r=0 tower 04TB10
r=0 tower 05TD03
r=0 tower 05TD10
r=0 tower 05TE03
r=0 tower 06TD11
r=0 tower 07TB09
r=0 tower 08TC05
r=0 tower 09TA12
r=0 tower 09TB07
r=0 tower 10TD06
Figure 2: Shows the ratio of the mean ACD value for one fiber used (Run 1073 - fiber 2 illuminated) to all fibers used (Run 1071 - all fibers illuminated) for a given tower and eta as a function of phi bin. Ratio is on the vertical axis and phi bin is on the horizontal axis.


Towers with abnormal ratios that were set to zero for Fig. 2:
r=0 tower 01TA09
r=0 tower 01TE02
r=0 tower 02TA02
r=0 tower 02TB10
r=0 tower 02TD02
r=0 tower 03TB09
r=0 tower 03TC02
r=0 tower 04TB10
r=0 tower 05TD03
r=0 tower 05TD10
r=0 tower 05TE03
r=0 tower 06TA03
r=0 tower 06TD11
r=0 tower 07TB09
r=0 tower 08TC05
r=0 tower 09TA12
r=0 tower 09TB07
r=0 tower 10TD06
Figure 3: Shows the ratio of the mean ACD value for one fiber used (Run 1074 - fiber 3 illuminated) to all fibers used (Run 1071 - all fibers illuminated) for a given tower and eta as a function of phi bin. Ratio is on the vertical axis and phi bin is on the horizontal axis.


Towers with abnormal ratios that were set to zero for Fig. 3:
r=0 tower 01TA09
r=0 tower 01TE02
r=0 tower 02TA02
r=0 tower 02TB10
r=0 tower 02TD02
r=0 tower 03TB09
r=0 tower 03TC02
r=0 tower 04TB10
r=0 tower 05TD03
r=0 tower 05TD10
r=0 tower 05TE03
r=0 tower 06TA03
r=0 tower 06TD11
r=0 tower 07TB09
r=0 tower 08TC05
r=0 tower 09TA12
r=0 tower 09TB07
r=0 tower 10TD06
r=0 tower 12TC07
Figure 4: Shows the ratio of the mean ACD value for one fiber used (Run 1075 - fiber 4 illuminated) to all fibers used (Run 1071 - all fibers illuminated) for a given tower and eta as a function of phi bin. Ratio is on the vertical axis and phi bin is on the horizontal axis.


Towers with abnormal ratios that were set to zero for Fig. 4:
r=0 tower 01TA09
r=0 tower 01TE02
r=0 tower 02TA02
r=0 tower 02TB10
r=0 tower 02TD02
r=0 tower 03TB09
r=0 tower 03TC02
r=0 tower 04TB10
r=0 tower 05TD03
r=0 tower 05TD10
r=0 tower 05TE03
r=0 tower 06TD11
r=0 tower 07TB09
r=0 tower 08TC05
r=0 tower 09TA12
r=0 tower 09TB07
r=0 tower 10TD06
Figure 5: Shows the ratio of the mean ACD value for one fiber used (Run 1076 - fiber 5 illuminated) to all fibers used (Run 1071 - all fibers illuminated) for a given tower and eta as a function of phi bin. Ratio is on the vertical axis and phi bin is on the horizontal axis.


Towers with abnormal ratios that were set to zero for Fig. 5:
r=0 tower 01TA09
r=0 tower 01TE02
r=0 tower 02TA02
r=0 tower 02TB10
r=0 tower 02TD02
r=0 tower 03TB09
r=0 tower 03TC02
r=0 tower 04TB10
r=0 tower 05TD03
r=0 tower 05TD10
r=0 tower 05TE03
r=0 tower 06TD11
r=0 tower 07TB09
r=0 tower 08TC05
r=0 tower 09TA12
r=0 tower 09TB07
r=0 tower 10TD06
Figure 6: Shows the ratio of the mean ACD value for one fiber used (Run 1078 - fiber 6 illuminated) to all fibers used (Run 1071 - all fibers illuminated) for a given tower and eta as a function of phi bin. Ratio is on the vertical axis and phi bin is on the horizontal axis.


Towers with abnormal ratios that were set to zero for Fig. 6:
r=0 tower 01TA09
r=0 tower 01TE02
r=0 tower 02TA02
r=0 tower 02TB10
r=0 tower 02TD02
r=0 tower 03TB09
r=0 tower 03TC02
r=0 tower 04TB10
r=0 tower 05TC01
r=0 tower 05TD03
r=0 tower 05TD10
r=0 tower 05TE03
r=0 tower 06TA01
r=0 tower 06TA02
r=0 tower 06TA03
r=0 tower 06TB01
r=0 tower 06TD11
r=0 tower 07TB09
r=0 tower 08TC05
r=0 tower 08TD04
r=0 tower 09TA12
r=0 tower 09TB07
r=0 tower 10TD06
r=0 tower 12TC07
Figure 7: Shows the ratio of the mean ACD value for one fiber used (Run 1079 - fiber 7 illuminated) to all fibers used (Run 1071 - all fibers illuminated) for a given tower and eta as a function of phi bin. Ratio is on the vertical axis and phi bin is on the horizontal axis.


Towers with abnormal ratios that were set to zero for Fig. 7:
r=0 tower 01TA09
r=0 tower 01TE02
r=0 tower 02TA02
r=0 tower 02TB10
r=0 tower 02TD02
r=0 tower 03TB09
r=0 tower 03TC02
r=0 tower 04TB10
r=0 tower 05TD03
r=0 tower 05TD10
r=0 tower 05TE03
r=0 tower 06TA03
r=0 tower 06TD11
r=0 tower 07TB09
r=0 tower 08TC05
r=0 tower 09TA12
r=0 tower 09TB07
r=0 tower 10TD06
Figure 8: Shows the ratio of the mean ACD value for one fiber used (Run 1080 - fiber 8 illuminated) to all fibers used (Run 1071 - all fibers illuminated) for a given tower and eta as a function of phi bin. Ratio is on the vertical axis and phi bin is on the horizontal axis.


Towers with abnormal ratios that were set to zero for Fig. 8:
r=0 tower 01TA09
r=0 tower 01TE02
r=0 tower 02TA02
r=0 tower 02TB10
r=0 tower 02TD02
r=0 tower 03TB09
r=0 tower 03TC02
r=0 tower 04TB10
r=0 tower 05TD03
r=0 tower 05TD10
r=0 tower 05TE03
r=0 tower 06TA03
r-0 tower 06TD11
r=0 tower 07TB09
r=0 tower 08TC05
r=0 tower 09TA12
r=0 tower 09TB07
r=0 tower 10TD06
Script for producing above plots.