Position Reconstruction in LUX
Abstract
The position reconstruction method used in the analysis of the complete exposure of the Large Underground Xenon (LUX) experiment is presented. The algorithm is based on a statistical test that makes use of an iterative method to recover the photomultiplier tube (PMT) light response directly from the calibration data. The light response functions make use of a two dimensional functional form to account for the photons reflected on the inner walls of the detector. To increase the resolution for small pulses, a photon counting technique was employed to describe the response of the PMTs. The reconstruction was assessed with calibration data including Kr (releasing a total energy of 41.5 keV) and H ( with Q = 18.6 keV) decays, and a deuterium-deuterium (D-D) neutron beam (2.45 MeV). In the horizontal plane, the reconstruction has achieved an position uncertainty of = 0.82 cm for events of only 200 electroluminescence photons and = 0.17 cm for 4,000 electroluminescence photons. Such signals are associated with electron recoils of energies 0.25 keV and 10 keV, respectively. The reconstructed position of the smallest events with a single electron emitted from the liquid surface has a horizontal uncertainty of 2.13 cm.
Keywords
Cite
@article{arxiv.1710.02752,
title = {Position Reconstruction in LUX},
author = {LUX Collaboration and D. S. Akerib and S. Alsum and H. M. Araújo and X. Bai and A. J. Bailey and J. Balajthy and P. Beltrame and E. P. Bernard and A. Bernstein and T. P. Biesiadzinski and E. M. Boulton and P. Brás and D. Byram and S. B. Cahn and M. C. Carmona-Benitez and C. Chan and A. Currie and J. E. Cutter and T. J. R. Davison and A. Dobi and E. Druszkiewicz and B. N. Edwards and S. R. Fallon and A. Fan and S. Fiorucci and R. J. Gaitskell and J. Genovesi and C. Ghag and M. G. D. Gilchriese and C. R. Hall and M. Hanhardt and S. J. Haselschwardt and S. A. Hertel and D. P. Hogan and M. Horn and D. Q. Huang and C. M. Ignarra and R. G. Jacobsen and W. Ji and K. Kamdin and K. Kazkaz and D. Khaitan and R. Knoche and N. A. Larsen and B. G. Lenardo and K. T. Lesko and A. Lindote and M. I. Lopes and A. Manalaysay and R. L. Mannino and M. F. Marzioni and D. N. McKinsey and D. M. Mei and J. Mock and M. Moongweluwan and J. A. Morad and A. St. J. Murphy and C. Nehrkorn and H. N. Nelson and F. Neves and K. O'Sullivan and K. C. Oliver-Mallory and K. J. Palladino and E. K. Pease and C. Rhyne and S. Shaw and T. A. Shutt and C. Silva and M. Solmaz and V. N. Solovov and P. Sorensen and T. J. Sumner and M. Szydagis and D. J. Taylor and W. C. Taylor and B. P. Tennyson and P. A. Terman and D. R. Tiedt and W. H. To and M. Tripathi and L. Tvrznikova and S. Uvarov and V. Velan and J. R. Verbus and R. C. Webb and J. T. White and T. J. Whitis and M. S. Witherell and F. L. H. Wolfs and J. Xu and K. Yazdani and S. K. Young and C. Zhang},
journal= {arXiv preprint arXiv:1710.02752},
year = {2018}
}
Comments
30 pages, 17 figures