• Corpus ID: 252567785

Report of the Instrumentation Frontier Working Group for Snowmass 2021

  title={Report of the Instrumentation Frontier Working Group for Snowmass 2021},
  author={P. S. Barbeau and Petra Merkel and Jinlong Zhang and Darin Acosta and Anthony Allen Affolder and Artur Apresyan and Marina Artuso and Vallary Shashikant Bhopatkar and Stephen Butalla and Gabriella Carini and Thomas C. Cecil and Amy L. Connolly and Carl Eric Dahl and Allison McCarn Deiana and Katherine Dunne and Carlos O. Escobar and Juana Adela Fong Estrada and Farah Fahim and James E. Fast and Maurice Garcia-Sciveres and Roxanne Guenette and Michael T. Hedges and Kent Irwin and Albrecht Karle and Wesley Ketchum and S. Kravitz and W. Hugh Lippincott and Reina H. Maruyama and J. C. McIver and F. M. Newcomer and J. F. Parsons and Matthew Pyle and J L Raaf and Christopher Rogan and Mayly Sanchez and Ian Peter Joseph Shipsey and Bernd Surrow and Maxim Titov and S. E. Vahsen and Caterina Vernieri and Andrew P. White and Steven Worm and Minfang Yeh and Rachel Yohay and Jacob Zettlemoyer Duke University and Fermi National Accelerator Laboratory and Argonne National Laboratory and Rice University and University of California at Santa Cruz and Syracuse University and Ohio University and Florida Institute of Technology and Brookhaven National Laboratory and Northwestern University and Southern Methodist University and Stockholm University and Jefferson Lab and Lawrence Berkeley National Laboratory and University of Manchester and Purdue University and St. Francis Xavier University and University of Wisconsin - Madison and University of California at Santa Barbara and Yale University and University of British Columbia and University of Pennsylvania and Columbia University and University of California Berkeley and University of Kansas and Florida State University and Oxford University and Temple University and Irfu and Cea and Universit'e Paris-Saclay and University of Hawaii and Stanford Linear Accelerator Laboratory and University of Texas at Arlington and Deutsches Elektronen-Synchrotron and Humboldt-Universitat zu Berlin},
D. Acosta, A. A. Affolder, A. Apresyan, M. Artuso, V. Bhopatkar, S. Butalla, G. A. Carini, T. Cecil, A. Connolly, C. E. Dahl, A. Deiana, K. Dunne, C. O. Escobar, J. Estrada, F. Fahim, J. E. Fast, M. Garcia-Sciveres, R. Guenette, M. T. Hedges, K. Irwin, A. Karle, W. Ketchum, S. Kravitz, W. H. Lippincott, R. H. Maruyama, J. McIver, M. Newcomer, J. Parsons, M. Pyle, J. L. Raaf, C. Rogan, M. Sanchez, I. Shipsey, B. Surrow, M. Titov, S. E. Vahsen, C. Vernieri, A. P. White, S. Worm, M. Yeh, R. Yohay… 

Report of the 2021 U.S. Community Study on the Future of Particle Physics (Snowmass 2021) Summary Chapter

The 2021-22 High-Energy Physics Community Planning Exercise (a.k.a. “Snowmass 2021”) was organized by the Division of Particles and Fields of the American Physical Society. Snowmass 2021 was a

Dark Matter Complementarity - Summary

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uncertainties on γ resulting from BESIII/STCF measurements of the D strong-phase differences, which will contribute as external inputs to the Belle II and LHCb measurements.

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Snowmass Instrumentation Frontier IF02 Topical Group Report: Photon Detectors

  • 2022

Smart sensors using artificial intelligence for on-detector electronics and ASICs

The motivations and potential applications for on-detector AI, and a number of areas of opportunity where machine learning techniques, codesign workflows, and future microelectronics technologies which will accelerate design, performance, and implementations for next generation experiments are discussed.

Enabling Capabilities for Infrastructure and Workforce in Electronics and ASICs

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: It is essential to develop novel cost-effective readout technologies to maximize the discovery potential of future HEP experiments.

Light-weight and highly thermally conductive support structures for future tracking detectors

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Photon counting from the vacuum ultraviolet to the short wavelength infrared using semiconductor and superconducting technologies

In the last decade, several photon counting technologies have been developed opening a new window for experiments in the low photon number regime. Several ongoing and future projects in HEP benefit

Fast Timing With Silicon Carbide Low Gain Avalanche Detectors

4H-Silicon Carbide, when considered as a material for the fabrication of Low Gain Avalanche Detectors for particle timing and position measurement, offers potential advantages over Silicon. We

Snowmass2021 Cosmic Frontier: The landscape of low-threshold dark matter direct detection in the next decade

The search for particle-like dark matter with meV-to-GeV masses has developed rapidly in the past few years. We summarize the science case for these searches, the recent progress, and the exciting