B.J.P. Jones
Massachusetts Institute of Technology
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by B.J.P. Jones.
Journal of Instrumentation | 2015
Z. Moss; J. M. Conrad; B.J.P. Jones; J.S. Moon; M. Toups; L. Bugel; Gabriel Lewis Collin; Taritree Wongjirad
Scintillation light produced in liquid argon (LAr) must be shifted from 128 nm to visible wavelengths in light detection systems used for liquid argon time-projection chambers (LArTPCs). To date, LArTPC light collection systems have employed tetraphenyl butadiene (TPB) coatings on photomultiplier tubes (PMTs) or plates placed in front of the PMTs. Recently, a new approach using TPB-coated light guides was proposed. In this paper, we report on light guides with improved attenuation lengths above 100 cm when measured in air. This is an important step in the development of meter-scale light guides for future LArTPCs. Improvements come from using a new acrylic-based coating, diamond-polished cast UV transmitting acrylic bars, and a hand-dipping technique to coat the bars. We discuss a model for connecting bar response in air to response in liquid argon and compare this to data taken in liquid argon. The good agreement between the prediction of the model and the measured response in liquid argon demonstrates that characterization in air is sufficient for quality control of bar production. This model can be used in simulations of light guides for future experiments.
Journal of Instrumentation | 2018
S.F. Pate; T. Wester; L. Bugel; J. M. Conrad; E. Henderson; B.J.P. Jones; A.I.L. McLean; J.S. Moon; M. Toups; Taritree Wongjirad
We present a model for the Global Quantum Efficiency (GQE) of the MicroBooNE optical units. An optical unit consists of a flat, circular acrylic plate, coated with tetraphenyl butadiene (TPB), positioned near the photocathode of a 20.2-cm diameter photomultiplier tube. The plate converts the ultra-violet scintillation photons from liquid argon into visible-spectrum photons to which the cryogenic phototubes are sensitive. The GQE is the convolution of the efficiency of the plates that convert the 128 nm scintillation light from liquid argon to visible light, the efficiency of the shifted light to reach the photocathode, and the efficiency of the cryogenic photomultiplier tube. We develop a GEANT4-based model of the optical unit, based on first principles, and obtain the range of probable values for the expected number of detected photoelectrons (
arXiv: Instrumentation and Detectors | 2010
Jose Alonso; Roger Barlow; William A. Barletta; Z. Djurcic; L. Calabretta; C. Tschalaer; M. H. Shaevitz; Manuel Calderon De La Barca Sanchez; E. Blucher; L. Winslow; Gail C. McLaughlin; B.J.P. Jones; P. McIntyre; G. B. Mills; C. Ignarra; T. Katori; R. Carr; G. Karagiorgi; Tess Smidt; Peter H. Fisher; R. Van de Water; K. Terao; M. J. Syphers; Hiroyuki Tanaka; A. Bernstein; H.T. Baumgartner; L. Camilleri; S. Dazeley; W.G. Seligman; K. Scholberg
N_{rm PE}
arXiv: Instrumentation and Detectors | 2014
B. Baptista; L. Bugel; C. S. Chiu; J. M. Conrad; C. Ignarra; B.J.P. Jones; T. Katori; S. Mufson
) given the known systematic errors on the simulation parameters. We compare results from four measurements of the
Journal of Instrumentation | 2018
S.F. Pate; T. Wester; L. Bugel; J. M. Conrad; E. Henderson; B.J.P. Jones; A.I.L. McLean; J.S. Moon; M. Toups; Taritree Wongjirad
N_{rm PE}
Bulletin of the American Physical Society | 2011
L. Bugel; J. M. Conrad; C. Ignarra; B.J.P. Jones; T. Katori; Tess Smidt; H. Tanaka
determined using alpha-particle sources placed at two distances from a TPB-coated plate in a liquid argon cryostat test stand. We also directly measured the radial dependence of the quantum efficiency, and find that this is the same shape as predicted by our model, a Gaussian. Our model results in a GQE of
Collaboration
Dive into the B.J.P. Jones's collaboration.
