4D Tracking and 5D Calorimetry

Name: 4D Tracking and 5D Calorimetry
Start: 2023-11-02T10:00:00-07:00
End: 2023-11-02T12:00:00-07:00
Location: No location set

Thursday 2 Nov 2023, 10:00 → 12:00 America/Los_Angeles

Description

Zoom:

https://stanford.zoom.us/j/92728532486pwd=eHBpcDQ0RjdnZlBjQmRHYW1WRjdFUT09

Password: 059507

Publications:

https://cds.cern.ch/record/2870326 "Investigating the impact of 4D Tracking in ATLAS Beyond Run 4"

- 10:00 → 10:30
  4D Tracking
  - 10:00
    
    Tracking clustering, seeding and finding 10m
    
    Tracking performance (purity, efficiency, CPU time)
    minimum pT threshold
    Large-R tracking
  - 10:10
    Object performance: b-tagging, charm-tagging, tau-tagging, PU suppression, Missing ET, particle flow 10m
    
    b-tagging
    
    charm-tagging
    
    tau-tagging
    
    PU suppression
    
    Missing ET
    
    Particle flow
  - 10:20
    
    Layout studies 10m
    
    Mechanical, electrical (power), radiation, and data-transmission constraints for either a second layer replacement or a dedicated third timing layer. Consider potential technologies for sensors, electronics, and data-transmission. Study barrel and disk options separately.
- 10:30 → 11:10
  5D Calorimetry
  - 10:30
    Vertex t0 reconstruction 10m
    
    t0 resolution and efficiency
    
    Applications:
    o t0 for HGTD
    o PU suppression
    o LLP search (displaced photons/jets)
    
    Speaker: Doyeong Kim
    
    Screen Shot 2023-11-01 at 17.54.03 PM.png
    
    Doyeong
    color code: general discussion / action item
    1. Feedback from the Upgrade Physics meeting https://indico.cern.ch/event/1337242/#9-5d-calorimetry
    Need to check the agreement with Data. But, we are working on a 'feasibility' study to decide if it is worth investigating further with data. Next time, we can put a note on this and we'll eventually check the agreement btw data and MC.
    Our sample is not uniform in pion pT (especially up to 10 GeV). So our result could be driven from higher pT pions and truth time resolution for lower pT pion could be worse.
    To address this,
    1) We need to check if we are not lack of stat. Firstly, need to check if we need to generate more samples
    2) Assuming we have enough events, we redo our study with fine pT granularity. something like [1, 3, 5, 7, 9, 11, 13, 15, 17, 19, 21] GeV.
    2. We had a discussion about correlation plots (attached to agenda).
    Two left plots are appropriate, and we can see the correlation btw cell time of cells
    The sources of the correlation can be 1) Phycis or 2) measurement, ex cross-talk. We need to see if we can disentangle them when we have pion samples with pile-up
  - 10:40
    Single pion studies 10m
    
    time evolution/structure of pion showers
    
    response vs time
    
    neutron component identification
    
    Speakers: Doyeong Kim, Zahra Farazpay (Loisiana Tech)
  - 10:50
    Space-time structure of hadronic showers 10m
    
    Response vs time
    
    overlapping showers
    
    time-aware GNN PFlow reconstruction
    
    Speaker: Zahra Farazpay (Loisiana Tech)
  - 11:00
    
    Higgs Factory calorimeter timing studies 10m
- 11:10 → 11:45
  Electronics and Sensors: 4D/5D techniques
  - 11:10
    
    LGDAs 10m
    
    Speakers: Christopher Kenney (SLAC), Julie Segal (SLAC)
  - 11:20
    
    28nm CMOS TDC ASIC 10m
    
    Speakers: Bojan Markovic (SLAC), Larry Ruckman (SLAC)
  - 11:30
    
    4D Tracking and 5D Calorimetry electronic concepts 10m
  - 11:40
    
    Intelligent readout: 4D pixel and 5D calorimeter clustering 5m

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4D Tracking and 5D Calorimetry