4D Tracking workshop

America/Los_Angeles
53/2-2002 - Berryessa (SLAC)

53/2-2002 - Berryessa

SLAC

43
Ariel Schwartzman (SLAC), Bojan Markovic (SLAC), Carl Haber (LBNL), Christopher Kenney (SLAC), Julie Segal (SLAC), Maurice Garcia-Sciveres (Lawrence Berkeley National Laboratory), Sander Breur (SLAC), Simone Pagan Griso (LBNL), Timon Heim (Lawrence Berkeley National Lab (LBNL))
Description

4D Tracking is a major new technology that will be transformative for future colliders. 4-dimensional tracking with ultra-fast timing and very fine spatial resolution will be key to addressing the increasing complexity of events at hadron colliders (HL-LHC and FCC-hh) and suppressing the beam-induced backgrounds at muon colliders. Higgs factories (FCC-ee/ILC) will utilize timing layers for ToF particle identification and long-lived particle searches. The purpose of this workshop is to bring the US community interested in 4D tracking together to discuss various efforts being pursued towards forming a collaboration to pursue 4D tracking detector R&D within the US.  Such collaboration could help set requirements towards specific goals or demonstration projects, keep the community informed and encourage collaboration through regular meetings and/or workshops, etc. The goal is to have a discussion about what could be helpful to this community.

 

ZOOM room:  https://stanford.zoom.us/j/92736953355?pwd=LnQfFOaK6be2NalVPf6TK1ENJgDsih.1

 

Registration
4D Tracking Workshop
Participants
  • Adam Molnar
  • Alessandro Tricoli
  • Alexander Paramonov
  • Angela Kok
  • Angelo Dragone
  • Angira Rastogi
  • Antonio Boveia
  • Aram Apyan
  • Ariel Schwartzman
  • Artur Apresyan
  • Bojan Markovic
  • Bridget Mack
  • Bruce Schumm
  • Carl Haber
  • Charles Young
  • Christopher Hill
  • David Neuffer
  • Dong Su
  • Emily Thompson
  • Gabriele Giacomini
  • Gaetano Barone
  • Hartmut Sadrozinski
  • Ian Dyckes
  • Jennifer Ott
  • Josef Sorenson
  • Julie Segal
  • Karri Folan Di Petrillo
  • Larry Ruckman
  • Laura Jeanty
  • Lorenzo Paolozzi
  • Lorenzo Rota
  • Lothar Bauerdick
  • Luc Le Pottier
  • marina artuso
  • Maurice Garcia-Sciveres
  • nicola bacchetta
  • Noe Gonzalez
  • Prafull Purohit
  • prajita bhattarai
  • Rainer Bartoldus
  • Sally Seidel
  • Sander Breur
  • Shih-Chieh Hsu
  • Simone Mazza
  • Synack Tester3
  • Timon Heim
  • Tommy Sievert
  • Valentina Cairo
  • Victor Turbiner
  • +15
    • 1
      Introduction

      Workshop charge:

      The central question driving this workshop is: What are the best technologies for developing a 4D tracker over the next 10 years, and how can we effectively integrate them? While this question cannot be definitively answered today, it is clear that significant generic R&D is required. This R&D should progress from proof-of-principle demonstrations of individual components to the development of a 4D tracking system demonstrator—something capable of performing 4D tracking in a test beam environment.

      The goal of this workshop is to formulate concrete proposals for a U.S. program that enables steady progress towards such a demonstrator. A key initial step will be defining the necessary requirements and specifications. This doesn't mean that individual technologies (such as sensors) need to be selected and fixed at this stage. However, a hybrid approach could be outlined, where different sensors can be integrated with a common readout chip, allowing flexibility as the technologies evolve.

      As future applications like HL-LHC Phase 3, MUC, FCC-ee/ILC, and FCC-hh continue to take shape, we aim to identify specific challenges these applications will demand. By focusing on challenges that are achievable with current technology, we can explore options that will guide the development of future detector systems before moving into application-specific R&D.

      The workshop will conclude with a short report summarizing the key findings and recommendations related to these charge questions.

    • Simulation, reconstruction, and applications
      • What are the main physics cases for 4D trackers, the key quantities driving their requirements, and the experimental challenges?
      • What would be useful to do in the next year?
        • Examples: preparation of datasets for simulation studies that can provide requirements for 4D trackers: What samples, what studies? What format and what limitations would such a challenge have?
        • Common set of tools based on ACTS for fast development. Integration with Geant4, Digitization, Delphes? What exists, what is missing
        • What physics questions need to be answered?
          • Detector requirements for FCC-ee outer tracker timing layer
          • Bandwidth requirements for various applications
      • Propose goals for next year and for the next 5 years
      Conveners: Ariel Schwartzman (SLAC), Simone Pagan Griso (LBNL), Valentina Cairo (SLAC)
    • Sensors
      • What are the main R&D sensor activities and what physics applications they target
      • What are the main experimental challenges
      • What is the status of simulations
      • What would be useful to do in the next year?
        • Examples: improved simulation tools, sensor development targeting specific requirements, addressing a particular challenge
      • Propose prototyping and demonstrator ideas for next year, and for the next 5 years
      • Status of available tools and what do you need to answer arising questions?
      • Requirements
      Conveners: Carl Haber (LBNL), Simone Mazza
    • 12:30 PM
      Lunch
    • Electronics
      • What are the main electronics R&D activities and what physics applications they target?
      • Does 28nm TSMC CMOS seem like the clear choice for a near term development?
      • What are the main experimental challenges?
        • Examples: clock distribution, on-chip data reduction, system-level challenges, …
      • What would be useful to do in the next year?
      • Propose prototyping and demonstrator ideas for next year, and for the next 5 years
      • Are you involved in electronics R&D towards 4D trackers?
      Conveners: Alexander Paramonov (Argonne National Laboratory), Bojan Markovic (SLAC), Timon Heim (Lawrence Berkeley National Lab (LBNL)), Troy England (Fermilab)
    • 3:30 PM
      Coffee
    • Facilities / Test beam
      • What test beam and facilities are available, and what are the main challenges to take full advantage of them
      • Are there new types of facilities that would be required (or could be available)?
      Convener: Christopher Kenney (SLAC)
    • Discussion of collaboration proposal