Quantum Sensors for High Energy Physics
Abstrak
Strong motivation for investing in quantum sensing arises from the need to investigate phenomena that are very weakly coupled to the matter and fields well described by the Standard Model. These can be related to the problems of dark matter, dark sectors not necessarily related to dark matter (for example sterile neutrinos), dark energy and gravity, fundamental constants, and problems with the Standard Model itself including the Strong CP problem in QCD. Resulting experimental needs typically involve the measurement of very low energy impulses or low power periodic signals that are normally buried under large backgrounds. This report documents the findings of the 2023 Quantum Sensors for High Energy Physics workshop which identified enabling quantum information science technologies that could be utilized in future particle physics experiments, targeting high energy physics science goals.
Penulis (42)
Aaron Chou
Kent Irwin
Reina H. Maruyama
Oliver K. Baker
Chelsea Bartram
Karl K. Berggren
Gustavo Cancelo
Daniel Carney
Clarence L. Chang
Hsiao-Mei Cho
Maurice Garcia-Sciveres
Peter W. Graham
Salman Habib
Roni Harnik
J. G. E. Harris
Scott A. Hertel
David B. Hume
Rakshya Khatiwada
Timothy L. Kovachy
Noah Kurinsky
Steve K. Lamoreaux
Konrad W. Lehnert
David R. Leibrandt
Dale Li
Ben Loer
Julián Martínez-Rincón
Lee McCuller
David C. Moore
Holger Mueller
Cristian Pena
Raphael C. Pooser
Matt Pyle
Surjeet Rajendran
Marianna S. Safronova
David I. Schuster
Matthew D. Shaw
Maria Spiropulu
Paul Stankus
Alexander O. Sushkov
Lindley Winslow
Si Xie
Kathryn M. Zurek
Akses Cepat
- Tahun Terbit
- 2023
- Bahasa
- en
- Sumber Database
- arXiv
- Akses
- Open Access ✓