APV and AMORE test beam and laboratory data
APV and AMORE, test beam and laboratory data analysis on behalf of Lari KOPONEN HIP and Aalto University 10 th RD 51 Collaboration Meeting, Stony Brook University
FIT (Kondo Gnanvo, Michael Staib *) : AMORE-SRS (*) Mike help us during all the June beam period in H 4. HIP(Francisco Garcia): -FEC-ADC APVs -Lari (Summer Student for three months) RD 51 lab: Detector and Services PCs, lab, beam, … Hans Muller: - FEC-ADC APVs All the contributes have been fundamental. 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 2
Starting point Raw data from The detector Amore. SRS - zero suppression - clusterization - tracking Physical interpretation by user Fragmentation of the process with relative outputs Raw data from The detector Physical interpretation by user Clusterisation - finding clusters of hits PEDESTAL ROOT FILE (for pedestal run) Zero Suppressed Data (for pedestal run) Zero suppression - finding hits 10/21/2021 BEAM Analysis File Tracking - finding path from one cluster to other 10 th RD 51 Collaboration Meeting, Stony Brook University 3
PEDESTAL ROOT FILE (for pedestal run) BEAM Analysis File Zero Suppressed Data (for pedestal run) TTREE = Something that I can process later in ROOT 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 4
PEDESTAL ROOT FILE (for pedestal run) 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 5
PEDESTAL ROOT FILE (for pedestal run) 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 6
Zero Suppressed Data (for pedestal run) 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 7
BEAM Analysis File Default Plot and histograms In AMORE-SRS 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 8
BEAM Analysis File Y Cluster Size X Hit Multiplicity 10/21/2021 (log scale) X Cluster Size 10 th RD 51 Collaboration Meeting, Stony Brook University Y Hit multiplicity 9
BEAM Analysis File HIT MAP X HIT DISTRIBUTION CHARGE MAP Y HIT DISTRIBUTION 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 10
BEAM Analysis File Having a TTree the data, event by event, are available for additional analysis Post –Amore. Processed Plots (in ROOT) XY Charge Correlation X&Y Charge Spectrum vs Cluster Size 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 11
BEAM Analysis File Example of post processing analysis: pillars in mmegas for a Fe 55 run All the involved pillar grouped together Fe 55 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University All the involved pillar grouped together 12
The donkey test I (Eraldo) took data with DATE and I tried to do my specific analysis/plots using ROOT on the TTree of the root output files produced by AMORE. I don’t know absolutely nothing about the AMORE-SRS code. I wanted to check the feasibility of doing what I needed directly in ROOT. I’m not an expert of ROOT but, Make. Class and Make. Selector provide me automatically the structure of the code that I need for looping the events… 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 13
Spectrum and Correlation 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 14
Spectrum vs Cluster Size 15 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University
Uniformity Test X HITS Y HITS X CHARGE Y CHARGE X NORMALIZED CHARGE 10/21/2021 Y NORMALIZED CHARGE 10 th RD 51 Collaboration Meeting, Stony Brook University 16
Uniformity Test HITS CHARGE NORMALIZED CHARGE 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 17
Stability Test Time e 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University Tim 18
Documentation about the Lari activity available Example Code for analysis available as Projection of the signal versus time or uniformity, stability, … Oscilloscope Type View … and many other 10/21/2021 10 th RD 51 Collaboration Meeting, Stony Brook University 19
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