-- RamonaValenzuelaPerez - 2013-11-27

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Detector Orientations

Data Channel #	Detector Positions	Angular Orientation	Trajectory Color	Detector Collimator Entrance Offset from RP
0	4	Phi -45deg, Theta 40deg	Yellow	R: 149.78mm, Z: 25.8mm, Y: 27.49mm
1	1	Phi -30deg, Theta 40deg	Red	R: 120.97mm, Z: 30.64mm, Y: 31.11mm
2	2	Phi -35deg, Theta 40deg	Green	R: 128.65mm, Z: 39.06mm, Y: 14.62mm
3	3	Phi -40deg, Theta 40deg	Blue	R: 140.69mm, Z: 14.32mm, Y: 41.59mm
Figure Set 1	Figure Set 1	Figure Set 4	Figure Set 2	Figure Set 3

Note that for the shot_list.data on nyoko2, the setpoint values are the input values to the RP control box during data collection

Figure Set 1: Detector Positions

Figure Set 2: Channel Particle Trajectories

Figure Set 3: PD Offsets from RP

Figure Set 4: Detector Angular Orientations

shot_list.data: Shot list

Plasma Scenarios

Scenario: Reference	Shots
Beam Blip/ NBI Slowing Down	29958	29960	29966	29972	-	-
Quiescent MHD	29904	29905	29906	29908	29909	29910

Scenario: Resonant Perturbations	Shots
Low Amplitude MHD	29917	29924	29928	29929	29931
Large Amplitude Fishbones	29975	29976	29980	-	-

Scenario: Non-Resonant Perturbations	Shots
Sawteeth	29879	29880	29881	29882	29883	29884	29885

Shot Log

Shot Date
080513
081613
081913
082013
082113
082213
082313
090413
090513
090613
090913
091013
091113
091213

Yes

Shot #	Shot Date	Filename "ctrl_fm_" +	Investigator	Ch0	Ch1	Ch2	Ch3	Notes
29806		29806_0.5_0.data 29806_0.5_1.data 29806_0.5_2.data 29806_0.5_3.data	Pierre	No	Yes
29807
29808
29809
29811
29812
29813
29814
29815
29818
29820
29821
29822
29823
29824
29825
29826
29827
29828
29829
29832
29834
29835
29837
29838
29839
29840
29841
29845
29846
29847
29848
29849
29851
29852
29853
29854
29855
29859
29862
29874
29875
29876
29877
29878
29879	08/19/13	29879_0.5_0.data 29879_0.5_1.data 29879_0.5_2.data 29879_0.5_3.data	Ramona	Yes	Yes	Yes	Yes
29880	08/19/13	29880_0.5_0.data 29880_0.5_0.data 29880_0.5_0.data	Ramona	Yes	No	Yes	Yes
29881	08/19/13	29881_0.5_1.data 29881_0.5_2.data 29881_0.5_3.data	Ramona	No	Yes	Yes	Yes
29882	08/19/13	29882_0.5_0.data 29882_0.5_2.data 29882_0.5_3.data	Ramona	Yes	No	Yes	Yes
29883	08/19/13		Werner/Ramona	Yes	Yes	Yes	Yes
29884	08/19/13	29884_0.5_0.data 29884_0.5_1.data 29884_0.5_2.data 29884_0.5_3.data	Ramona	Yes	Yes	Yes	Yes
29885	08/19/13	29885_0.5_0.data 29885_0.5_1.data 29885_0.5_2.data 29885_0.5_3.data	Ramona	Yes	Yes	Yes	Yes
29890
29891
29892
29893
29894
29895
29896
29897
29899	08/20/13		Douglas	No	No	No	No	All channels only noise.
29901	08/20/13		Douglas	No	No	No	No	All channels only noise.
29902	08/20/13		Douglas	No	No	No	No	Ch.0,2,3 - Quiescent; Ch.1 only noise.
29904	08/20/13		Pierre/ Ramona	No	No	No	No
29905	08/20/13		Pierre/ Ramona	No	No	No	No
29906	08/20/13	29906_0.5_0_PA.data 29906_0.5_1_PA.data 29906_0.5_2_PA.data 29906_0.5_3_PA.data 29906_0.5_0_PA.data 29906_0.5_1.data 29906_0.5_2.data 29906_0.5_3.data	Pierre (PA) Douglas (notes) Ramona	Yes	Yes	Yes	Yes	Ch0: There was only noise after 0.3 seconds. Ch1: This channel had a possible overload at points .246 s to .256 s and .266 s to .296 s. There was only noise after 0.3 seconds. Ch2, Ch3: Good from 0.1s to 0.3 s. After that only noise
29907	08/20/13	29907_0.5_0_PA.data 29907_0.5_1_PA.data 29907_0.5_2_PA.data 29907_0.5_3_PA.data 29907_0.5_0.data 29907_0.5_1.data 29907_0.5_2.data 29907_0.5_3.data	Pierre (notes, PA) Ramona	Yes	Yes	Yes	Yes	Ch3: Plasma Shot first thought to be quiescent but is not (See Mirnov and Fission Chamber Data)
29908	08/20/13	29908_0.5_0_PA.data 29908_0.5_2_PA.data 29908_0.5_3_PA.data 29908_0.5_2.data 29908_0.5_3.data	Pierre (PA) Douglas (notes) Ramona	No	No	Yes	Yes	Ch0: This channel does not exhibit any charged particle peaks Ch1: Possible overload from 0.1s to 0.3s. No charged particles peaks present. Ch2, Ch3: Good from 0.1s to 0.3s.
29909	08/20/13	29909_0.5_0_PA.data 29909_0.5_1_PA.data 29909_0.5_2_PA.data 29909_0.5_3_PA.data 29909_0.5_0.data 29909_0.5_1.data 29909_0.5_2.data 29909_0.5_3.data	Pierre (PA) Ramona	Yes	Yes	Yes	Yes
29910	08/20/13	29910_0.5_1_PA.data 29910_0.5_2_PA.data 29910_0.5_3_PA.data 29910_0.5_1.data 29910_0.5_2.data 29910_0.5_3.data	Pierre (PA) Ramona	No	Yes	Yes	Yes
29911	08/20/13		Douglas	No	No	No	No
29912	08/20/13	29912_0.5_1.data 29912_0.5_2.data 29912_0.5_3.data	Douglas	No	Yes	Yes	Yes
29914	08/20/13	29914_0.5_1.data 29914_0.5_2.data 29914_0.5_3.data	Douglas	No	Yes	Yes	Yes
29915	08/20/13	29915_0.5_1.data 29915_0.5_2.data 29915_0.5_3.data	Douglas	No	Yes	Yes	Yes
29916	08/20/13		Douglas	No	No	No	No
29917	08/20/13	29917_0.5_1.data 29917_0.5_2.data 29917_0.5_3.data	Ramona	No	Yes	Yes	Yes
29918	08/20/13		Douglas	No	No	No	No
29919	08/2013	29919_0.5_1.data 29919_0.5_2.data 29919_0.5_3.data	Douglas	No	Yes	Yes	Yes
29920	08/20/13	29920_0.5_1.data 29920_0.5_2.data 29920_0.5_3.data	Werner Douglas	No	Yes	Yes	Yes
29921	08/20/13	29921_0.5_2.data 29921_0.5_3.data	Douglas	No	No	Yes	Yes
29922	08/20/13	29922_0.5_1.data 29922_0.5_2.data 29922_0.5_3.data	Douglas	No	Yes	Yes	Yes
29923	08/20/13	29923_0.5_1.data 29923_0.5_2.data 29923_0.5_3.data	Douglas	No	Yes	Yes	Yes
29924	08/20/13	29924_0.5_1_DT.data 29924_0.5_2_DT.data 29924_0.5_3_DT.data 29924_0.5_1.data 29924_0.5_2.data 29924_0.5_3.data	Omar (notes) Douglas (DT) Ramona	No	Yes	Yes	Yes	Ch0: This channel is very noisy. Very few peaks have noisless bases.
29925	08/20/13	29925_0.5_1.data 29925_0.5_2.data 29925_0.5_3.data	Douglas	No	Yes	Yes	Yes
29926	08/20/13		Douglas	No	No	No	No
29927	08/20/13		Douglas	No	No	No	No
29928	08/20/13		Ramona	No	Yes	Yes	Yes
29929	08/20/13	29929_0.5_0.data	Ramona/ Omar	No	Yes	Yes	Yes	Ch0: This channel is almost all noise.
29930	08/20/13		Douglas	No	No	No	No	All channels mostly noise.
29931	08/20/13	29931_0.5_1.data 29931_0.5_2.data 29931_0.5_3.data	Ramona	No	Yes	Yes	Yes
29932
29933	08/21/13	29933_0.5_0.data 29933_0.5_1.data 29933_0.5_2.data 29933_0.5_3.data	Javiera/Omar	No	No	No	No	Every channel was only noise
29934
29935	08/21/13	29935_0.5_0.data 29935_0.5_1.data 29935_0.5_2.data 29935_0.5_3.data	Javiera	No	Yes	Yes	Yes
29936
29937	08/21/13	29937_0.5_0.data 29937_0.5_1.data 29937_0.5_2.data 29937_0.5_3.data	Javiera	Yes	Yes	Yes	Yes
29938
29939
29940
29941
29942
29943
29944
29945	08/21/13	29945_0.5_0.data 29945_0.5_1.data 29945_0.5_2.data 29945_0.5_3.data	Javiera	No	Yes	Yes	Yes	Ch0: This channel was basically noise but there were 3 peaks that reached past 1 V Ch1, Ch2, Ch3: useful between t = .1 and t= ,3
29946
29947
29948
29949
29951
29952
29953
29954
29955	08/21/13	29955_0.5_0.data 29955_0.5_1.data 29955_0.5_2.data 29955_0.5_3.data	Javiera	No	Yes	Yes	Yes	Every channel had a very large peak at around t = .382 s. Each of the peaks reached between 2 and 3 volts
29956
29957
29958	08/21/13	29958_0.5_1.data 29958_0.5_2.data 29958_0.5_3.data	Ramona	No	Yes	Yes	Yes
29959
29960	08/21/13	29960_0.5_1.data 29960_0.5_2.data 29960_0.5_3.data	Ramona	No	Yes	Yes	Yes
29961	08/21/13	29961_0.5_0.data 29961_0.5_1.data 29961_0.5_2.data 29961_0.5_3.data	Javiera	Yes	Yes	Yes	Yes	Ch1, Ch2, Ch3: Each channel had a peak at ~ 3 V at t= .356s
29962	08/22/13	29962_0.5_0.data 29962_0.5_1.data 29962_0.5_2.data 29962_0.5_3.data	Javiera	No	No	No	No	Every channel was only noise
29963	08/22/13	29963_0.5_0.data 29963_0.5_1.data 29963_0.5_2.data 29963_0.5_3.data	Javiera	No	No	No	No	Every channel was only noise
29964	08/22/13	29964_0.5_0.data 29964_0.5_1.data 29964_0.5_2.data 29964_0.5_3.data	Javiera	No	Yes	Yes	Yes	Ch0: Only noise Ch1, Ch2, Ch3: each one has good data from t = .1s to .3s
29966	08/22/13	29966_0.5_1.data 29966_0.5_3.data 29966_0.5_3.data	Ramona	No	Yes	Yes	Yes
29969	08/22/13	29969_0.5_0.data 29969_0.5_1.data 29969_0.5_2.data 29969_0.5_3.data	Javiera	No	No	No	No	Ch0: Possible overload from t = .282s to t = .288s. Everything else was noise Ch1: Possible overload from t = .280s to t = .320s. Everything else was noise
29970	08/22/13	29970_0.5_0.data 29970_0.5_1.data 29970_0.5_2.data 29970_0.5_3.data	Javiera	Yes	Yes	Yes	Yes	Ch0: There is some noise from t = .240s to .254s and then again at t = .320s and .330s Ch1: This channel has a possible overload and useful data from t = .240s to .310s Ch2, Ch3: both channels had useful data from t = .240s to .320s
29971	08/22/13	29971_0.5_0.data 29971_0.5_1.data 29971_0.5_2.data 29971_0.5_3.data	Javiera	No	Yes	Yes	Yes	Ch1, Ch2, Ch3: Useful between t = .100s to t = .310s
29972	08/22/13	29972_0.5_1.data 29972_0.5_2.data 29972_0.5_3.data	Ramona	No	Yes	Yes	Yes
29974	08/22/13	29974_0.5_0.data 29974_0.5_1.data 29974_0.5_2.data 29974_0.5_3.data	Javiera	No	No	No	No	Every channel was only noise
29975	08/22/13	29975_0.5_1.data 29975_0.5_2.data 29975_0.5_3.data	Javiera (notes) Ramona	No	Yes	Yes	Yes	Ch2, Ch3: Most useful between t = .1s to t = .3s
29976	08/22/13	29976_0.5_1.data 29976_0.5_2.data 29976_0.5_3.data	Javiera (notes) Ramona	No	Yes	Yes	Yes	Ch1, Ch2, Ch3: Most useful between t = .1s to t = .27s
29978	08/22/13	29978_0.5_0.data 29978_0.5_1.data 29978_0.5_2.data 29978_0.5_3.data	Javiera	No	Yes	Yes	Yes	Ch1, Ch2, Ch3: Useful from t = .05s to t = .3s, everything afterwards is just noise
29980	08/22/13	29980_0.5_1.data 29980_0.5_2.data 29980_0.5_3.data	Javiera (notes) Ramona	No	Yes	Yes	Yes	Ch1, Ch2, Ch3: Useful from t = 0s to t = .3s, everything afterwards is just noise
29981	08/22/13	29981_0.5_0.data 29981_0.5_1.data 29981_0.5_2.data 29981_0.5_3.data	Javiera	No	Yes	Yes	Yes	Ch1, Ch2, Ch3: Useful from t = 0s to t = .33s, everything afterwards is just noise
29982	08/22/13	29982_0.5_0.data 29982_0.5_1.data 29982_0.5_2.data 29982_0.5_3.data	Javiera	No	Yes	Yes	Yes	Ch1, Ch2, Ch3: Useful from t = .05s to t = .35s. Each one had a last voltage peak at around t = .351s with a v = 3.4
29983	08/22/13	29983_0.5_0.data 29983_0.5_1.data 29983_0.5_2.data 29983_0.5_3.data	Javiera	No	Yes	Yes	Yes	Ch1, Ch2, Ch3: All of these are useful between t = .05s to t = .35s. In each one there is a large voltage peak at around t - .35s with a voltage of about 3.4V
29984	08/22/13	29984_0.5_0.data 29984_0.5_1.data 29984_0.5_2.data 29984_0.5_3.data	Javiera	No	No	No	No	These channels were mostly, if not all, noise.
29985
29986
29987
29988
29989
29991
29992
29993
29994
30024	09/04/13	30024_0.5_0.data 30024_0.5_1.data 30024_0.5_2.data 30024_0.5_3.data	Omar	No	No	No	No	All channels were either composed of noise or were too noisy for data analysis.
30025	09/04/13	30025_0.5_0.data 30025_0.5_1.data 30025_0.5_2.data 30025_0.5_3.data	Omar	No	No	No	No	All channels were either composed of noise or were too noisy for data analysis.
30026	09/04/13	30026_0.5_0.data 30026_0.5_1.data 30026_0.5_2.data 30026_0.5_3.data	Omar	Yes	Yes	Yes	Yes	Bursts of 'overloads', periods of no data collection, were experienced. Very visibile between 200 and 300 ms.
30028	09/04/13	30028_0.5_0.data 30028_0.5_1.data 30028_0.5_2.data 30028_0.5_3.data	Omar	No	No	No	No	All channels were either composed of noise or were too noisy for data analysis.
30029	09/04/13	30029_0.5_0.data 30029_0.5_1.data 30029_0.5_2.data 30029_0.5_3.data	Omar	Yes	Yes	Yes	Yes	After approximately .12 seconds the files consist mainly of noise.
30030	09/04/13	30030_0.5_0.data 30030_0.5_1.data 30030_0.5_2.data 30030_0.5_3.data	Omar	Yes	Yes	Yes	Yes
30031	09/04/13	30031_0.5_0.data 30031_0.5_1.data 30031_0.5_2.data 30031_0.5_3.data	Omar	Yes	Yes	Yes	Yes
30032	09/04/13	30032_0.5_0.data 30032_0.5_1.data 30032_0.5_2.data 30032_0.5_3.data	Omar	Yes	Yes	Yes	Yes
30034	09/04/13	30034_0.5_0.data 30034_0.5_1.data 30034_0.5_2.data 30034_0.5_3.data	Omar	Yes	Yes	Yes	Yes	The peaks in channel 0 were difficult to distinguish due to periods of high noise and a base than had more noise than other shots at the base of the peak.
30035	09/04/13	30035_0.5_0.data 30035_0.5_1.data 30035_0.5_2.data 30035_0.5_3.data	Omar	Yes	Yes	Yes	Yes
30036	09/04/13	30036_0.5_0.data 30036_0.5_1.data 30036_0.5_2.data 30036_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has noisy peaks which make it difficult to provide a consistent selection.
30037	09/04/13	30037_0.5_0.data 30037_0.5_1.data 30037_0.5_2.data 30037_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has noisy peaks which make it difficult to provide a consistent selection.
30038	09/04/13	30038_0.5_0.data 30038_0.5_1.data 30038_0.5_2.data 30038_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has noisy peaks which make it difficult to provide a consistent selection.
30039	09/04/13	30039_0.5_0.data 30039_0.5_1.data 30039_0.5_2.data 30039_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has noisy peaks which make it difficult to provide a consistent selection. Whole channel may be all noise with very few peaks.
30040	09/04/13	30040_0.5_0.data 30040_0.5_1.data 30040_0.5_2.data 30040_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 may be composed entirely of noise.
30041	09/04/13	30041_0.5_0.data 30041_0.5_1.data 30041_0.5_2.data 30041_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 may be composed entirely of noise.
30042	09/04/13	30042_0.5_0.data 30042_0.5_1.data 30042_0.5_2.data 30042_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has noisy peaks which make it difficult to provide a consistent selection. Whole channel may be all noise with very few peaks.
30043	09/04/13	30043_0.5_0.data 30043_0.5_1.data 30043_0.5_2.data 30043_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has noisy peaks which make it difficult to provide a consistent selection. Whole channel may be all noise with very few peaks. There is no apparent data after approximately .24 seconds.
30044	09/04/13	30044_0.5_0.data 30044_0.5_1.data 30044_0.5_2.data 30044_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has noisy peaks which make it difficult to provide a consistent selection. Whole channel may be all noise with very few peaks. There is no apparent data after approximately .36 seconds.
30045	09/04/13	30045_0.5_0.data 30045_0.5_1.data 30045_0.5_2.data 30045_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has very noisy peaks.
30047	09/04/13	30047_0.5_0.data 30047_0.5_1.data 30047_0.5_2.data 30047_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has very noisy peaks.
30048	09/04/13	30048_0.5_0.data 30048_0.5_1.data 30048_0.5_2.data 30048_0.5_3.data	Omar	No	yes	Yes	Yes	Channel 0 has very noisy peaks.
30049	09/04/13	30049_0.5_0.data 30049_0.5_1.data 30049_0.5_2.data 30049_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has very noisy peaks.
30050	09/05/2013	30050_0.5_0.data 30050_0.5_1.data 30050_0.5_2.data 30050_0.5_3.data	Carlos Lopez	Yes	No	Yes	Yes	Ch0: Very noisy, but found 3 peaks Ch1: Noisier than Ch0, found no real peaks, will recheck
30051	09/05/2013	30051_0.5_0.data 30051_0.5_1.data 30051_0.5_2.data 30051_0.5_3.data	Carlos Lopez	No	No	No	No	Ch0: nothing/noisy Ch1: noisy Ch2: noisy Ch3: noisy
30052	09/05/2013	30052_0.5_0.data 30052_0.5_1.data 30052_0.5_2.data 30052_0.5_3.data	Carlos Lopez	No	No	No	No	Noise in all channels
30053	09/05/2013	30053_0.5_0.data 30053_0.5_1.data 30053_0.5_2.data 30053_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch0: noise
30054	09/05/2013	30054_0.5_0.data 30054_0.5_1.data 30054_0.5_2.data 30054_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch0: noise
30055	09/05/2013	30055_0.5_0.data 30055_0.5_1.data 30055_0.5_2.data 30055_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch0: noise
30056	09/05/2013	30056_0.5_0.data 30056_0.5_1.data 30056_0.5_2.data 30056_0.5_3.data	Carlos Lopez	No	No	No	No	All channels had too much noise
30057	09/05/2013	30057_0.5_0.data 30057_0.5_1.data 30057_0.5_2.data 30057_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30058	09/05/2013	30058_0.5_0.data 30058_0.5_1.data 30058_0.5_2.data 30058_0.5_3.data	Carlos Lopez	No	No	No	No	Noise in all channels
30059	09/05/2013	30059_0.5_0.data 30059_0.5_1.data 30059_0.5_2.data 30059_0.5_3.data	Carlos Lopez	No	No	No	No	Noise in all channels
30060	09/05/2013	30060_0.5_0.data 30060_0.5_1.data 30060_0.5_2.data 30060_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch0: noise
30062	09/05/2013	30062_0.5_0.data 30062_0.5_1.data 30062_0.5_2.data 30062_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch0: noise
30063	09/05/2013	30063_0.5_0.data 30063_0.5_1.data 30063_0.5_2.data 30063_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch0: noise
30064	09/05/2013	30064_0.5_0.data 30064_0.5_1.data 30064_0.5_2.data 30064_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch0: noise
30065	09/05/2013	30065_0.5_0.data 30065_0.5_1.data 30065_0.5_2.data 30065_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch0: noise
30066	09/05/2013	30066_0.5_0.data 30066_0.5_1.data 30066_0.5_2.data 30066_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30067	09/05/2013	30067_0.5_0.data 30067_0.5_1.data 30067_0.5_2.data 30067_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30068	09/05/2013	30068_0.5_0.data 30068_0.5_1.data 30068_0.5_2.data 30068_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30069	09/05/2013	30069_0.5_0.data 30069_0.5_1.data 30069_0.5_2.data 30069_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30071	09/05/2013	30071_0.5_0.data 30071_0.5_1.data 30071_0.5_2.data 30071_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30073	09/05/2013	30073_0.5_0.data 30073_0.5_1.data 30073_0.5_2.data 30073_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30074	09/05/2013	30074_0.5_0.data 30074_0.5_1.data 30074_0.5_2.data 30074_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30075	09/05/2013	30075_0.5_0.data 30075_0.5_1.data 30075_0.5_2.data 30075_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30076	09/05/2013	30076_0.5_0.data 30076_0.5_1.data 30076_0.5_2.data 30076_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30077	09/05/2013	30077_0.5_0.data 30077_0.5_1.data 30077_0.5_2.data 30077_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: noise
30078	09/06/2013	30078_0.5_0.data 30078_0.5_1.data 30078_0.5_2.data 30078_0.5_3.data	Carlos Lopez	No	No	No	No	No channel contains data
30079	09/06/2013	30079_0.5_0.data 30079_0.5_1.data 30079_0.5_2.data 30079_0.5_3.data	Carlos Lopez	No	No	No	No	No channel contains data
30080	09/06/2013	30080_0.5_0.data 30080_0.5_1.data 30080_0.5_2.data 30080_0.5_3.data	Carlos Lopez	No	No	No	No	No channel contains data
30081	09/06/2013	30081_0.5_0.data 30081_0.5_1.data 30081_0.5_2.data 30081_0.5_3.data	Carlos Lopez	No	Yes	Yes	Yes	Ch 0: no data
30082	09/06/2013	30082_0.5_0.data 30082_0.5_1.data 30082_0.5_2.data 30082_0.5_3.data	Carlos Lopez	No	No	No	No	None of the channels have data
30084	09/06/2013	30084_0.5_0.data 30084_0.5_1.data 30084_0.5_2.data 30084_0.5_3.data	Carlos Lopez	No	No	No	No	None of the channels have data
30085	09/06/2013	30085_0.5_0.data 30085_0.5_1.data 30085_0.5_2.data 30085_0.5_3.data	Carlos Lopez	No	No	No	No	None of the channels have data
30086	09/06/2013	30086_0.5_0.data 30086_0.5_1.data 30086_0.5_2.data 30086_0.5_3.data	Carlos Lopez redone: Ramona Perez	Yes	Yes	Yes	Yes	Ch 0: no usable data Ch 0: very noisy, but some peaks
30087
30088
30089
30090		30090_0.7_0.data 30090_0.7_1.data 30090_0.7_2.data 30090_0.7_3.data	Ramona Perez	Yes	Yes	Yes	Yes	Ch0: very noisy, but some peaks
30091
30092
30093
30094
30095
30097
30098
30099
30100
30101
30102
30103
30104
30105	09/09/13	30105_0.5_0.data 30105_0.5_1.data 30105_0.5_2.data 30105_0.5_3.data	Pierre	No	No	No	No	There are no particle peaks in any of the channels for this shot.
30106	09/09/13	30106_0.5_0.data 30106_0.5_1.data 30106_0.5_2.data 30106_0.5_3.data	Pierre	No	No	No	No	Ch 0 and Ch 1 have no particle peaks, but Ch 2 and Ch 3's signal are dominated by high frequency noise (Also no particle peaks).
30107	09/09/13	30107_0.5_0.data 30107_0.5_1.data 30107_0.5_2.data 30107_0.5_3.data	Pierre	No	No	No	No	Ch 0 has a singular high frequency high voltage (~3 V) noise peak @ 0.452 sec Ch 1 has a singular high frequency high voltage (~3 V) noise peak @ 0.452 sec Ch 2 has a singular high frequency high voltage (~3 V) noise peak @ 0.452 sec Ch 3 has a singular high frequency high voltage (~3 V) noise peak @ 0.452 sec
30108	09/09/13	30108_0.5_0.data 30108_0.5_1.data 30108_0.5_2.data 30108_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a large reflected peak (~ -2.7 V) at 0.163 sec amongst other smaller reflected peaks.
30109	09/09/13	30109_0.5_0.data 30109_0.5_1.data 30109_0.5_2.data 30109_0.5_3.data	Pierre	Yes	Yes	Yes	Yes
30110	09/09/13	30110_0.5_0.data 30110_0.5_1.data 30110_0.5_2.data 30110_0.5_3.data	Pierre	Yes	Yes	Yes	Yes
30111	09/09/13	30111_0.5_0.data 30111_0.5_1.data 30111_0.5_2.data 30111_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0, there are some high frequency high voltage around 100 ms into the shot Ch 1, the signal seems to being prematurely and there is some high frequency noise Ch 2, the signal seems to being prematurely and there is some high frequency noise Ch 3, the signal seems to being prematurely and there is some high frequency noise
30112	09/09/13	30112_0.5_0.data 30112_0.5_1.data 30112_0.5_2.data 30112_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 1 has a large peak (~3.5 V) at 288 ms Ch 2 has a large peak (~3.5 V) at 289 ms
30113	09/09/13	30113_0.5_0.data 30113_0.5_1.data 30113_0.5_2.data 30113_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has high frequency and high voltage noise [0.166, 0.198] Ch 1 has two large reflected peaks at 0.167 sec and 0.190 sec. Ch 2 has a high voltage (~3.5 V) and high frequency noise spike at 0.189 sec. Ch 3 has large reflected (~ -1 V) peaks at 0.167, 0.170, and 0.189 sec.
30114	09/09/13	30114_0.5_0.data 30114_0.5_1.data 30114_0.5_2.data 30114_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0, Ch 1, Ch 2, Ch 3 has some reflected peaks but nothing too large.
30115	09/09/13	30115_0.5_0.data 30115_0.5_1.data 30115_0.5_2.data 30115_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has many large amplitude (~3 V) high frequency reflected peaks. Look for outliers in rates [0.126, 0.250] Ch 1 has a few moderate amplitude (~ 2 V) reflected peaks. Look for outliers in rates [0.126, 0.250] Ch 2 has a few moderate amplitude (~ 2 V) reflected peaks. Look for outliers in rates [0.126, 0.250] Ch 3 has a few moderate amplitude (~ 2 V) reflected peaks. Look for outliers in rates [0.126, 0.250]
30116	09/09/13	30116_0.5_0.data 30116_0.5_1.data 30116_0.5_2.data 30116_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has small reflected peaks [0.084, 0.152] and at 0.291 and 0.307 sec. Ch 1 is a good signal. Ch 2 is a good signal. Ch 3 is a good signal.
30117	09/09/13	30117_0.5_0.data 30117_0.5_1.data 30117_0.5_2.data 30117_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has two large noise peaks at 0.264 and 0.274 sec. Ch 1 is a much cleaner signal than Ch 0. Ch 2 is also a clean signal with little noise. Ch 3 is also a clean signal with little noise.
30118	09/09/13	30118_0.5_0.data 30118_0.5_1.data 30118_0.5_2.data 30118_0.5_3.data	Pierre	No	No	No	No	Ch 2 is all high frequency high voltage noise.
30119	09/09/13	30119_0.5_0.data 30119_0.5_1.data 30119_0.5_2.data 30119_0.5_3.data	Pierre	No	No	No	No	Ch 2 is all high frequency high voltage noise. Ch 3 is all high frequency high voltage noise.
30120	09/09/13	30120_0.5_0.data 30120_0.5_1.data 30120_0.5_2.data 30120_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0's signal ends after 0.132 sec. Ch 1's signal ends after 0.136 sec. Peaks are cleaner than in Ch 0. Ch 2's signal ends after 0.135 sec. There is much more noise prevelant in the signal. Ch 3's signal ends after 0.145 sec. There is much more noise prevelant in the signal but not as high in amplitude.
30121	09/09/13	30121_0.5_0.data 30121_0.5_1.data 30121_0.5_2.data 30121_0.5_3.data	Pierre	No	Yes	Yes	Yes	Ch 0 is very noisy with a few large high frequency waves of large amplitudes. Ch 1 is considerably cleaner with only one large amplitude high frequency noise peak at 0.212 sec. Ch 2 is also clean with a single large amplitude high frequency noise peak. Ch 3 is a clean signal with a single large amplitude high frequency noise peak at 0.213 sec.
30122	09/09/13	30122_0.5_0.data 30122_0.5_1.data 30122_0.5_2.data 30122_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has quite a few reflected peaks and a large noise peak at 0.211 sec. There is a lot of low voltage noise embedded in the baseline signal. Ch 1 is a cleaner signal than Ch 0 with a few reflected noise peaks. Ch 2 is a cleaner signal than Ch 0 but with a noiser baseline signal. Ch 3 is a cleaner signal than Ch 0 but with a noiser baseline signal.
30123	09/09/13	30123_0.5_0.data 30123_0.5_1.data 30123_0.5_2.data 30123_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a few reflected peaks and a noisy baseline near the middle of the shot. Ch 1 has a clean signal. Ch 2 has a very clean signal. Ch 3 has a clean signal.
30124	09/09/13	30124_0.5_0.data 30124_0.5_1.data 30124_0.5_2.data 30124_0.5_3.data	Pierre	No	Yes	Yes	Yes	Ch 0 is very noisy and peaks are erratic. Ch 1 is clean with a few gaps of flatline signal. Ch 2 is a decently clean with a noisy baseline. Ch 3 is decently clean with a noisy baseline and many particle peaks with large amplitudes (~ 1.5 V)
30125	09/10/13	30125_0.5_0.data 30125_0.5_1.data 30125_0.5_2.data 30125_0.5_3.data	Pierre	No	No	No	No	There are no particle peaks in any channels.
30126	09/10/13	30126_0.5_0.data 30126_0.5_1.data 30126_0.5_2.data 30126_0.5_3.data	Pierre	No	No	No	No	Ch 2 contains only high frequency noise (~ Amplitude 0.2 V) Ch3 same as latter.
30127	09/10/13	30127_0.5_0.data 30127_0.5_1.data 30127_0.5_2.data 30127_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 is a clean signal with little noise and consistent peaks. Ch 1 has a large reflected peak at 0.360 sec. Ch 2 has a large reflected peak at 0.360 sec. Ch 3 has a large reflected peak at 0.359 sec.
30128	09/10/13	30128_0.5_0.data 30128_0.5_1.data 30128_0.5_2.data 30128_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a large reflected peak (~ -0.8 V) at 0.177 sec. Ch 1 has a large reflected peak (~ -0.8 V) at 0.210 sec. Ch 2 has a large reflected peak (~ -0.8 V) at 0.210 sec. Ch 3 has a good signal with little noise.
30130	09/10/13	30130_0.5_0.data 30130_0.5_1.data 30130_0.5_2.data 30130_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a large reflected peak at 0.290 sec. Ch 1 has a large reflected peak (~ -3.35 V) at 0.290 sec. Ch 2 has a large reflected peak (~ -3.30 V) at 0.290 sec. Ch 3 has a large reflected peak (~ -2.65 V) at 0.290 sec.
30131	09/10/13	30131_0.5_0.data 30131_0.5_1.data 30131_0.5_2.data 30131_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a few small reflected peaks but is otherwise relatively free of noise. Ch 1 has a few small reflected peaks but is also clean. Ch 2 has a noisy baseline. Ch 3 has a clean signal.
30132	09/10/13	30132_0.5_0.data 30132_0.5_1.data 30132_0.5_2.data 30132_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a large noise peak (~ 3.5 V) at 0.441 sec. Later in the shot peaks are irregular and a majority do not exceed 0.3 V in height. Ch 1 has a large noise peak (~ 3.5 V) at 0.441 sec and at 0.445 sec. Peaks are consistent in shape and height. Ch 2 has a large noise peak (~ 3.5 V) at 0.441 sec and at 0.445 sec. Peaks are consistent in shape and height. Ch 3 has a large noise peak (~ 3.5 V) at 0.441 sec and at 0.445 sec. Peaks are consistent in shape and height.
30133	09/10/13	30133_0.5_0.data 30133_0.5_1.data 30133_0.5_2.data 30133_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has some noise, particularly many reflected peaks throughout the shot. Later in the shot peaks are irregular and a majority do not exceed 0.3 V in height. Ch 1 is a much cleaner signal than Ch 0. Peaks are consistent. Ch 2 has a noisy baseline but good peaks. Ch 3 also has a noisy baseline but the peaks are good.
30134	09/10/13	30134_0.5_0.data 30134_0.5_1.data 30134_0.5_2.data 30134_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a large peak (~ 2.25 V) at 0.325 sec. Hardly any peaks exceed 0.5 V in height and are inconsistent in shape. Ch 1 has two large peaks (~ 2.0 V, 1.8 V) at 0.325 and 0.360 sec. Peaks are cleaner but occasionally have noise oscillations disturbing their shape. Ch 2 has a large peak (~ 1.5 V) at 0.325 sec. Noisy baseline but peaks are consistent. Ch 3 has a noisy baseline but peaks are consistent.
30135	09/10/13	30135_0.5_0.data 30135_0.5_1.data 30135_0.5_2.data 30135_0.5_3.data	Pierre	No	Yes	Yes	Yes	Ch 0 has a large peak (~ 1.2 V) at 0.229 sec, 2 high freq noise peak (~ 0.75, 0.66 V) at 0.236 and 0.401 sec. There is too much noise in peaks and variations in shape. Ch 1 has a handful of reflected peaks from 0.200 to 0.250 sec. Ch 2 has a clean signal, occasional shifts in baseline, may lead to high rates. Ch 3 has a clean signal with consistent peaks.
30136	09/10/13	30136_0.5_0.data 30136_0.5_1.data 30136_0.5_2.data 30136_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has two large peaks at 0.209 and 0.300 sec (~1.0 V) and a noise peak (~1.0 V) at 0.500 sec. The peaks in this channel are drowned with noise and are inconsistent in shape. Ch 1 has a few sections of over saturated signals from 0.190 to 0.309 sec. Ch 2 has a noisy baseline but the peaks are consistent in shape. Ch 3 has a clean signal.
30137	09/10/13	30137_0.5_0.data 30137_0.5_1.data 30137_0.5_2.data 30137_0.5_3.data	Pierre	No	Yes	Yes	Yes	Ch 0 has no peaks larger 0.3 V save for noise peaks (~3.0 V). Peaks are very inconsistent in shape and filled with noise. Ch 1 has the same large noise peaks (~3.0 V) at 0.270, 0.360, 0.385, 0.448, and a smaller noise peak at 0.408. Ch 2 has large noise peaks (~3.0 V) at 0.270, 0.360, 0.385, and 0.448. The baseline signal is somewhat noisy but a mojority of paritcle peaks have clean shapes. Ch 3 has large noise peaks (~3.0 V) at 0.270, 0.360, 0.385, and 0.448. This channel also has gaps of no activity but other than that is clean and had good peaks.
30138	09/10/13	30138_0.5_0.data 30138_0.5_1.data 30138_0.5_2.data 30138_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a large noise peak (~0.68 V) at 0.069 sec and has no other peaks larger than 0.26 V. This channel also has high frequency signals that are disgused within particle peaks. Zoom in to differentiate. Ch 1 has a clean signal with consistent peak shapes. Ch 2 has decently clean with good peaks but some noise embedded in the baseline signal. Ch 3 has a clean signal
30139	09/10/13	30139_0.5_0.data 30139_0.5_1.data 30139_0.5_2.data 30139_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a grouping of high frequency noise (~0.60 V) at 0.387 sec alongside not having any particle peaks above 0.25 V. Ch 1 has a clean signal with good peak shapes. Ch 2 has a clean signal with some noise in the baseline but the peaks are consistent. Ch 3 has a large peak (~2.70 V) at 0.246 sec and prevalent noise in the baseline but otherwise clean good peaks.
30140	09/10/13	30140_0.5_0.data 30140_0.5_1.data 30140_0.5_2.data 30140_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has no peaks higher than 0.27 V and has a lot of noise that peaks inconsistent in shape. Ch 1 has a clean signal with consistent peak shapes. Ch 2 has a clean signal with some noise in the baseline. Ch 3 has a clean signal with some noise in the baseline.
30141	09/10/13	30141_0.5_0.data 30141_0.5_1.data 30141_0.5_2.data 30141_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has no peaks higher than 0.26 V with very noisy peaks. Ch 1 has a clean signal with consistent peak shapes. Ch 2 has some noise but otherwise clean, consistent peaks. Ch 3 has a clean signal with good peaks.
30142	09/10/13	30142_0.5_0.data 30142_0.5_1.data 30142_0.5_2.data 30142_0.5_3.data	Pierre	No	Yes	Yes	Yes	Ch 0 is riddled with so much noise that most peaks are impossible to distinguish from noise. Ch 1 has a large reflected peak (~ -3.31 V) at 0.440 sec but otherwise has clean consistent peaks. Ch 2 has a large reflected peak (~ -3.04 V) at 0.440 sec but otherwise has clean consistent peaks. Ch 3 has a large reflected peak (~ -2.67 V) at 0.440 sec but otherwise has clean consistent peaks.
30143	09/10/13	30143_0.5_0.data 30143_0.5_1.data 30143_0.5_2.data 30143_0.5_3.data	Pierre	No	Yes	Yes	Yes	Ch 0 peaks are riddled with noise making it extremely difficult to fond consistent peaks. Ch 1 has a large reflected peak (~ -1.0 V) at 0.430 sec but is otherwise a good signal with consistent peak shapes. Ch 2 has a large reflected peak (~ -1.0 V) at 0.430 sec but is otherwise a good signal with consistent peak shapes. Ch 3 has a large reflected peak (~ -1.0 V) at 0.430 sec but is otherwise a good signal with consistent peak shapes.
30144	09/10/13	30144_0.5_0.data 30144_0.5_1.data 30144_0.5_2.data 30144_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has large peaks (~ 0.8 V) at 0.418 and 0.442 sec with a few more trailing at the end of the shot. Peaks are somewhat consistent. Ch 1 has large reflected peaks (~ -2.0 V) at 0.441 and 0.472 sec but it otherwise a good signal with clean, consistent peaks. Ch 2 has large reflected peaks (~ -1.20) at 0.419 and 0.441 and another (~ -1.60) at 0.473 sec otherwise channel is has some noise but peaks are consistent. ch 3 has large reflected peaks (~ -1.0) at 0.420 and 0.442 and another (~ -1.20) at 0.472 sec otherwise channel is has some noise but peaks are consistent.
30145	09/10/13	30145_0.5_0.data 30145_0.5_1.data 30145_0.5_2.data 30145_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a few noise peaks but has peaks that are somewhat consistent but this signal still has a lot of noise. Ch 1 has a good signal with consistent peaks save for a oversaturated signal at 0.402 sec. Ch 2 has a noiser baseline signal with the same oversaturated signal at 0.402 sec. Ch 3 has a clean signal with little noise.
30147	09/10/13	30147_0.5_0.data 30147_0.5_1.data 30147_0.5_2.data 30147_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a few large noise peaks between 0.342-0.490 sec and besides the latter no peaks exceed 0.3 V. Ch 1 has a large noise peak (~ -2.20 V) at 0.467 sec but is otherwise a good signal. Ch 2 has a large noise peak (~ -1.30 V) at 0.467 sec but is otherwise a good signal. Ch 3 has a noisy baseline but peaks are clean and consistent.
30148	09/10/13	30148_0.5_0.data 30148_0.5_1.data 30148_0.5_2.data 30148_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has noisy peaks (~ 3.33 V) during 0.123-0.235 sec as well as noisy peaks that are somewhat consistent. Ch 1 has large noise peaks (~ 3.33 V) during 0.123-0.235 sec with periods of over-saturation of signal but peaks are clean and consistent. Ch 2 has the same large noise peaks (~ 3.33 V) during 0.123-0.235 sec with periods of over-saturation of signal. Peaks are not as clean and consistent as Ch 1 but not worse than Ch 0. Ch 3 has the same large noise peaks (~ 3.33 V) during 0.123-0.235 sec but no over-saturation sections. Peaks are clean and consistent as Ch 1 but not worse than Ch 0.
30149	09/10/13	30149_0.5_0.data 30149_0.5_1.data 30149_0.5_2.data 30149_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 is a noisy channel with large noise peaks and the peaks are inconsistent in shape. May not produce good rates. Ch 1 has a gap of over-saturation from 0.168 to 0.230 with occasional large peaks (~ 1.66 V) Ch 2 has large peaks at 0.201 (~ 2.33 V), 0.205 (~ 2.00), 0.432 (~ 2.50) and a gap of over-saturation from 0.168 to 0.218. Ch 3 has smaller gaps of over-saturation with sections of peaks mixed in between the times 0.160 to 0.280. Also, large peaks at 0.167 (~ 1.8 V), and 0.214 (~ 1.80 V).
30150	09/10/13	30150_0.5_0.data 30150_0.5_1.data 30150_0.5_2.data 30150_0.5_3.data	Pierre	No	Yes	Yes	Yes	Ch 0 has so many noise peaks greater than 0.6 V (mostly around ~1.5 V) where the particle peaks are no more than 0.3 V and have inconsistent shapes. Ch 1 has periods of over-saturation during 0.173-0.275 s, 0.340 s, 0.393 s, 0.444-0.471 s that are reminiscent of sawtooth and/or fishbones. Ch 2 has periods of over-saturation at 0.266 s, 0.337 s, 0.390 s, and at 0.440 s there is a large noise peak (~ 1.60 V). The peaks are a little noisy but still consistent enough to use. Ch 3 has periods of low rates at 0.264 s, 0.336 s, 0.392 s with a few short periods of over-saturation. There are also many reflected peaks namely from 0.414 s until the end.
30151	09/10/13	30151_0.5_0.data 30151_0.5_1.data 30151_0.5_2.data 30151_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a large peak (~3.30 V) at 0.328 s otherwise is the cleanest ch 0 signal I have seen. Ch 1 has several gaps of over-saturation from 0.243 s to 0.317 s. Peaks are a little noisy but still consistent. Ch 2 has a large peak (~2.55 V) at 0.315 s but is otherwise clean with consistent peaks. Ch 3 has a large peak (~3.30 V) at 0.330 s but is otherwise clean with consistent peaks.
30152	09/10/13	30152_0.5_0.data 30152_0.5_1.data 30152_0.5_2.data 30152_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a very noisy baseline and noisy peaks, the signal ends at 0.245 s. Ch 1 has a clean signal and ends at 0.25 s with an over-saturated signal. Ch 2 has a clean signal and also ends at 0.25 s with an over-saturated signal. Ch 3 has a clean signal and also ends at 0.25 s with an over-saturated signal.
30153	09/10/13	30153_0.5_0.data 30153_0.5_1.data 30153_0.5_2.data 30153_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a noisy signal with inconsistent peak shapes. Ch 1 has an over-saturated signal at 0.252 s with some reflected peaks throughout the shot. Ch 2 has an oversaturated signal at 0.25 s but is otherwise clean. Ch 3 has an over-saturated signal at 0.25 s but is otherwise clean.
30154	09/10/13	30154_0.5_0.data 30154_0.5_1.data 30154_0.5_2.data 30154_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a noisy signal with large noise peaks (2.0 V & 1.2 V) at 0.333 s and at 0.402 V. Ch 1 has an over-saturated signal at 0.197 s, 0.237 s, 0.336 s, & 0.403s. Ch 1 is a bit noisy making some peak shapes noisy. Ch 2 has an over-saturated signal at 0.333 s, & 0.400 s but is otherwise clean with consistent peaks. Ch 3 has an over-saturated signal at 0.333 s, & 0.400 s but is otherwise clean with consistent peaks.
30155	09/10/13	30155_0.5_0.data 30155_0.5_1.data 30155_0.5_2.data 30155_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has a large noise peak at 0.122 s (~1.0 V) and at 0.250 s (~0.80 V). Ch 0 as usual is noisy with bad peak shapes but still distinguishable. Ch 1 has over-saturated signals between 0.165 s to 0.200 s and at 0.253 s but has clean, consistent peak shapes. Ch 2 has over-saturated signals at 0.192 s and at 0.249 s but has clean, consistent peaks. Ch 3 has low rates at 0.193 s but has clean, consistent peak shapes.
30156	09/10/13	30156_0.5_0.data 30156_0.5_1.data 30156_0.5_2.data 30156_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 is noisy as usual, some reflected peaks and has no peaks beyond 0.3 V. Ch 1 is mostly clean and peak shapes are good except towards the end of the shot. Ch 2 has a noisy baseline but is otherwise clean and good peak shapes. Ch 3 has some large peaks but is otherwise clean and has consistent peak shapes.
30157	09/10/13	30157_0.5_0.data 30157_0.5_1.data 30157_0.5_2.data 30157_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 is noisy as usual and there are discernible peaks but may not be very good for generating rates. Ch 1 has a good signal with one large peak at 0.329 (~ 3.0 V) Ch 2 has a good signal with a large peak at 0.328 (~ 2.3 V) Ch 3 has a good signal with a large reflected peak at 0.327 (~ 1.4 V)
30158	09/10/13	30158_0.5_0.data 30158_0.5_1.data 30158_0.5_2.data 30158_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 is a noisy signal with large noise peaks at 0.123 s (~1.0 V), 0.342 s (~0.85 V), & 0.364 s (~1.50 V) with inconsistent peak shapes but enough peaks to collect. Ch 1 is a good signal with a large signal peak at 0.363 s (~3.30 V). Ch 2 is a good signal with an over saturated signal at 0.366 s. Ch 3 is a good signal with a large peak signal at 0.364 s (~1.80 V).
30159	09/11/13	30159_0.5_0.data 30159_0.5_1.data 30159_0.5_2.data 30159_0.5_3.data	Pierre	No	No	No	No	No signals but noise.
30160	09/11/13	30160_0.5_0.data 30160_0.5_1.data 30160_0.5_2.data 30160_0.5_3.data	Pierre	No	No	No	No	No signals but noise. Ch 2 & Ch 3 has large periodic noise signals.
30162	09/11/13	30162_0.5_0.data 30162_0.5_1.data 30162_0.5_2.data 30162_0.5_3.data	Pierre	Yes	Yes	Yes	Yes	Ch 0 has inconsistent peak shapes but is low in noise. Ch 1 has a good signal with an oversaturated signal at 0.300 s. Ch 2 has a good signal with an oversaturated signal at 0.300 s. Ch 3 has a good signal with an oversaturated signal at 0.300 s.
30163	09/11/13
30164	09/11/13
30165	09/11/13
30166	09/11/13
30167	09/11/13
30168	09/11/13
30169	09/11/13
30170	09/11/13
30171	09/11/13
30172	09/11/13
30173	09/11/13
30174	09/11/13
30175	09/11/13
30176	09/11/13
30177	09/11/13
30178	09/11/13
30179	09/11/13
30180	09/12/13	30180_0.5_0.data 30180_0.5_1.data 30180_0.5_2.data 30180_0.5_3.data	Omar	No	No	No	No	All four channels were composed of noise.
30181	09/12/13	30181_0.5_0.data 30181_0.5_1.data 30181_0.5_2.data 30181_0.5_3.data	Omar	No	No	No	No	All channels are composed of noise.
30182	09/12/13	30182_0.5_0.data 30182_0.5_1.data 30182_0.5_2.data 30182_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has very noisy peaks. Channel 1 has a sharp decrease in data at ~.35s.
30183	09/12/13	30183_0.5_0.data 30183_0.5_1.data 30183_0.5_2.data 30183_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has very noisy peaks.
30184	09/12/13	30184_0.5_0.data 30184_0.5_1.data 30184_0.5_2.data 30184_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has very noisy peaks.
30185	09/12/13	30185_0.5_0.data 30185_0.5_1.data 30185_0.5_2.data 30185_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has very noisy peaks.
30187	09/12/13	30187_0.5_0.data 30187_0.5_1.data 30187_0.5_2.data 30187_0.5_3.data	Omar	No	Yes	Yes	Yes	Channel 0 has very noisy peaks. All other channels have a sharp decrease in data at ~.29s.
30188	09/12/13	30188_0.5_0.data 30188_0.5_1.data 30188_0.5_2.data 30188_0.5_3.data
30189	09/12/13	30189_0.5_0.data 30189_0.5_1.data 30189_0.5_2.data 30189_0.5_3.data
30190	09/12/13	30190_0.5_0.data 30190_0.5_1.data 30190_0.5_2.data 30190_0.5_3.data
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data	shot_list.data	r1	manage	13.4 K	2015-05-20 - 17:21	UnknownUser	Shot list

Topic revision: r122 - 2015-05-20 - boeglinw

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