The COHERENT Experimental Program
Abstract
The COHERENT experiment located in Neutrino Alley at the Spallation Neutron Source (SNS), Oak Ridge National Laboratory (ORNL), has made the world's first two measurements of coherent elastic neutrino-nucleus scattering (CEvNS), on CsI and argon, using neutrinos produced at the SNS. The COHERENT collaboration continues to pursue CEvNS measurements on various targets as well as additional studies of inelastic neutrino-nucleus interactions, searches for accelerator-produced dark matter (DM) and physics beyond the Standard Model, using the uniquely high-quality and high-intensity neutrino source available at the SNS. This white paper describes primarily COHERENT's ongoing and near-future program at the SNS First Target Station (FTS). Opportunities enabled by the SNS Second Target Station (STS) for the study of neutrino physics and development of novel detector technologies are elaborated in a separate white paper.
Cite
@article{arxiv.2204.04575,
title = {The COHERENT Experimental Program},
author = {D. Akimov and S. Alawabdeh and P. An and A. Arteaga and C. Awe and P. S. Barbeau and C. Barry and B. Becker and V. Belov and I. Bernardi and M. A. Blackston and L. Blokland and C. Bock and B. Bodur and A. Bolozdynya and R. Bouabid and A. Bracho and J. Browning and B. Cabrera-Palmer and N. Chen and D. Chernyak and E. Conley and J. Daughhetee and J. Daughtry and E. Day and M. del Valle Coello and J. Detwiler and K. Ding and M. R. Durand and Y. Efremenko and S. R. Elliott and L. Fabris and M. Febbraro and W. Fox and J. Galambos and A. Gallo Rosso and A. Galindo-Uribarri and C. Gilbert and M. P. Green and K. R. Hansen and B. Harris and M. R. Heath and S. Hedges and R. Henderson and D. Hoang and C. Hughes and M. Hughes and E. Iverson and P. Jairam and B. A. Johnson and T. Johnson and L. Kaufman and A. Khromov and A. Konovalov and J. Koros and E. Kozlova and A. Kumpan and L. Li and J. T. Librande and J. M. Link and J. Liu and A. Major and K. Mann and D. M. Markoff and J. Mastroberti and J. Mattingly and O. McGoldrick and M. McIntyre and Y. A. Melikyan and M. Mishra and P. E. Mueller and J. Newby and D. S. Parno and A. Penne and S. I. Penttila and D. Pershey and C. Prior and D. Radford and F. Rahman and R. Rapp and H. Ray and J. Raybern and O. Razuvaeva and D. Reyna and G. C. Rich and D. Rimal and J. Ross and A. Rouzky and D. Rudik and J. Runge and D. J. Salvat and A. M. Salyapongse and J. Sander and K. Scholberg and P. Siehien and A. Shakirov and G. Simakov and G. Sinev and W. M. Snow and V. Sosnovstsev and J. Steele and A. Strasbaugh Hjelmstad and T. Subedi and B. Suh and R. Tayloe and K. Tellez-Giron-Flores and R. T. Thornton and I. Tolstukhin and S. Trotter and F. Tsai and Y. -T. Tsai and E. Ujah and J. Vanderwerp and E. van Nieuwenhuizen and R. L. Varner and S. Vasquez and C. J. Virtue and G. Visser and K. Walkup and J. Wang and E. M. Ward and C. Wiseman and T. Wongjirad and D. Wu and J. Yang and Y. Yang and Y. -R. Yen and J. Yoo and C. -H. Yu and J. Zettlemoyer and S. Zhang},
journal= {arXiv preprint arXiv:2204.04575},
year = {2022}
}
Comments
38 papers, 24 figures; Snowmass contribution