Institutes and Interests

  • Is your institute represented below? Is your institutional information accurate? If not, please contact us.
  • Argonne National Laboratory (contact: S. Paramonov)
    • MAPS based trackers, intelligent readout and processing, simulation, precision physics
  • University of Arizona (contact: J. Rutherfoord)
    • Noble Liquid endcap calorimeter
  • Boston University (contact: Z. Demiragli)
    • Trigger and DAQ technologies, trigger-less readout systems
  • Brandeis University (contact: A. Apyan)
    • MAPS based silicon detectors, EW physics studies
  • Brookhaven National Laboratory (contact: H. Abidi)
    • MAPS/LGADs, gaseous trackers, Noble liquid calorimetry and cryogenic FE electronics, intelligent TDAQ systems, EW and Higgs
  • Brown University (contact: L. Gouskos)
    • LGAD/MAPS for vertex detectors, 4D tracking and high granularity calorimeter, AI/ML data processing, Higgs and EW
  • University of California, Irvine (contact: A. Taffard)
    • Readout electronics and Trigger, MAPS based tracking detectors, AI/ML based intelligent data processing, Higgs and BSM
  • University of California, Santa Cruz (contact: J. Nielsen)
    • Large-area silicon detectors, AC-LGAD detectors, Tracking calorimeter with MAPS readout, Higgs and BSM
  • California Institute of Technology (contact: R-Y Zhu)
    • Novel inorganic scintillators
  • Carnegie Mellow (contact: V. Dutta)
    • Calorimeter, software/computing and physics studies
  • Columbia University (contact: J. Parsons)
    • Calorimeter front-end electronics
  • Cornell University (contact: A. Ryd)
    • MAPS based tracking detectors, readout electronics, TDAQ incl simulation studies of backgrounds and data rates
  • Duke University (contact: A. Kotwal)
    • Semi-conductor detectors, ASICs and readout, Trigger/DAQ, TPC and drift chambers
  • Fermi National Accelerator Laboratory (contact: D. Elvira)
    • LGAD/MAPS, 3D sensors, smart pixels, dual-readout calorimeters, AI/ML real-time engineering, mechanics, software/computing, physics studies
  • Florida Institute of Technology (contact: M. Hohlmann)
    • MPGDs, Low Mass support structures, AI/ML implementation in ASICs and Trigger
  • University of Iowa (contact: Y. Onel)
    • Radiation-hard novel calorimeters, gaseous detectors, vacuum photo-detectors
  • Johns Hopkins University (contact: A. Gristan)
    • Si detector design and calibration, software, physics studies
  • University of Kansas (contact: G. Wilson)
    • Luminosity calorimeter, endcap Si envelopes for AC-LGAD TOF, EW physics
  • Lawrence Berkeley National Laboratory (contact: C. Haber)
    • Advanced pixel in 28nm CMOS, SiC LGAD, physics studies
  • University of Maryland (contact: C. Palmer)
    • Dual readout crystal calorimetry
  • Massachusetts Institute of Technology (contact: C. Paus)
    • MAPS based detectors, software/computing incl. simulation studies, precision physics measurements
  • University of Michigan (contact: T. Schwarz)
    • Straw tracker and its electronics, Gaseous muon detectors, dual-readout EM crystal calorimeter
  • Michigan State University (contact: R. Schwienhorst)
    • Muon detection, gaseous detectors, Trigger and DAQ, top quark studies
  • University of Minnesota (contact: R. Rusack)
    • Calorimeter, precision clock distribution
  • University of New Mexico (contact: S. Seidel)
    • U.S. based CMOS manufacturing process, Low-mass, high-speed, precision tracking detectors
  • Northeastern University (contact: L. Skinnari)
    • Hardware-based track reconstruction, Trigger and data acquisition
  • Northern Illinois University (contact: V. Shitsev)
    • Calorimeter detector R&D, Simulation and analysis, HPCs
  • Oak Ridge National Laboratory (contact: M. Benoit)
    • MAPS detectors, readout and data processing of Si detectors
  • Ohio State University (contact: KK Gan)
    • high-speed wireless communication for Si detectors
  • University of Pittsburgh (contact: J. Boudreau)
    • Trigger and DAQ, detector description and software, precision calculations/phenomenological studies
  • Princeton University (contact: C. Tully)
    • Calorimeter and Precision timing, software & computing, trigger
  • Purdue University (contact: A. Jung)
    • Light weight support structures, novel wire chamber design, top quark studies
  • SLAC National Laboratory (contact: P. Bhattarai)
    • Fast timing, CMOS MAPS, RICH PID, ML in eFPGAs and ML-based trigger systems, AI/ML reconstruction, Physics studies and simulation
  • Southern Methodist University (contact: R. Stroynowski)
    • LAr Calorimeter: Optoelectronics, data links, firmware, trigger, simulation
  • Stony Brook University (contact: V. Dao)
    • Noble liquid calorimeter, MAPS based vertexing and tracking, Higgs studies
  • University of Texas, Austin (contact: P. Onyisi)
    • Noble liquid calorimeter electronics, computing and simulation software, flavor physics
  • Texas Tech University (contact: N. Akchurin)
    • Next generation calorimeter for precision energy measurements
  • Tufts University (contact: H. Beauchemin)
    • Gaseous muon detectors and its alignment, QCD and BSM physics
  • University of Virginia (contact: R. Hirosky)
    • Dual-readout high resolution calorimeter, fast solid state light detectors, GPU accelerators for Geant4
  • University of Washington (contact: S. Hsu)
    • Real-time AI/ML based intelligent data processing and reduction