Tests begin on sensitive neutrino detector for nonproliferation as well as physics (March 2024)
Dawn of a New Era in Neutrino Detection Technology (March 2022)
UC Berkeley Engages Seal Storage Web3 Technology to Advance Innovative Neutrino Physics Research (June 2022)
Eos PMT characterization paper JINST, 19 P02032 (2024)
Eos detector paper JINST, 18 P02009 (2023)
Theia White Paper The EPJC 80 416 (2020)
Antineutrino sensitivity at THEIA EPJC 82 (2022) 12, 1151
MeV-scale performance of water-based and pure liquid scintillator detectors PRD 103, 052004 (2021)
Sensitivity of a low threshold directional detector to CNO-cycle solar neutrinos EPJC (2018) 78: 435 (2018)
A new water-based liquid scintillator and potential applications NIM A, Volume 660, Issue 1, 21 December 2011, Pages 51-56 (2011)
Characterization of water-based liquid scintillator for Cherenkov and scintillation separation EPJC 80, 867 (2020)
Spectral Photon Sorting For Large-Scale Cherenkov and Scintillation Detectors PRD 101, 072002 (2020)
Cherenkov and Scintillation Light Separation Using Wavelength in LAB Based Liquid Scintillator JINST, 14 (2019)
Time response of water-based liquid scintillator from X-ray excitation Mater. Adv., 2020,1, 71-76 (2020)
Cherenkov and Scintillation Separation in Water-Based Liquid Scintillator using an LAPPD EPJC 82-2 169 (2022)
An Experiment to Demonstrate Separation of Cherenkov and Scintillation Signals PRC 95, 055801 (2017)
M. Askins et al., Theia: Summary of physics program. Snowmass White Paper Submission
Z. Bagdasarian et al., Astrophysical neutrinos at THEIA
M. Wilking, Long-Baseline Physics with Theia Snowmass NF01 Meeting, 2020
M. Wurm, Introduction to THEIA and low-energy neutrino program Module of Opportunity Workshop, 2019
A. Mastbaum, Theia: A Next-Generation Water-Based LS Detector, NNN, 2019
M. Yeh, New Scintillation Water for Large Physics Experiments, BNL Particle-physics Seminar, 2019
J. Klein, THEIA Overview, THEIA Workshop, 2018