Title page for ETD etd-09242004-034356


Type of Document Dissertation
Author Back, Henning Olling
URN etd-09242004-034356
Title Internal Radioactive Source Calibration of the Borexino Solar Neutrino Experiment
Degree PhD
Department Physics
Advisory Committee
Advisor Name Title
Vogelaar, Robert Bruce Committee Chair
Ficenec, John R. Committee Member
Pitt, Mark L. Committee Member
Raghavan, Ramaswamy Committee Member
Takeuchi, Tatsu Committee Member
Keywords
  • calibration
  • radiation
  • pulse shape discrimination
  • neutrino physics
Date of Defense 2004-09-14
Availability unrestricted
Abstract
A measurement of solar neutrinos below 1 MeV of energy will further our knowledge of the neutrino's mass and mixing properties and will provide a probe to possible physics beyond the standard model of particle physics, as well as advance our understanding of energy production in the Sun.

Borexino is a liquid scintillator detector that will measure the neutrino energy spectrum to the lowest energy threshold to date. It has been designed to measure the flux of the mono-energetic neutrinos produced by electron capture on 7Be in the Sun's core, which will produce a Compton-like edge in the energy spectrum. Because of the low count rate, Borexino requires extremely low backgrounds, and a good understanding of the backgrounds that do exist. Although the purification techniques used for the scintillator lowered the radioactive contaminates to levels never before achieved, cuts must still be made to the data.

At Virginia Tech, we have developed an internal source calibration program that will be able to give us a thorough understanding of both the pulse shape discrimination efficiency and the energy and time response of Borexino. Energy calibration for alphas, betas, and gammas (energy scales) can be accomplished with such sources. When the calibration source is used in conjunction with an accurate source location system any spatial dependencies can be found. The system will use different types of sources at various energies to give the required information to make the cuts needed to extract believable physics from the detector.

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