Theses most similar to those of author Schools, Chad C
Analysis of the optical coupling of wavelength-shifting fibers to organic liquid scintillator filled fluoropolymer tubes for industrial and nuclear security applications (2014) read it
Monte Carlo model of a low-energy neutron interrogation system for detecting fissile material
Johnson, Erik D. (2006)
- Advisor: Richard C. Lanza
- Department of Nuclear Science and Engineering
Characterization of fissile material using low energy neutron interrogation
Padilla, Eduardo A (2007)
- Advisor: Richard C. Lanza
- Department of Nuclear Science and Engineering
A design for a high energy X-ray computed tomography sensor for the study of solidification fronts in aluminum
Jureidini, Imad Maurice (1997)
- Advisor: Richard C. Lanza
- Department of Nuclear Engineering
Remote detection of fissile material : Cherenkov counters for gamma detection
Erickson, Anna S (2011)
- Advisor: Richard C. Lanza
- Department of Nuclear Science and Engineering
- Advisors: Kimberly J. Palladino; Simulated Liquid Argon Interaction
- Department of Physics
Charged-particle spectroscopy : a new window on inertial confinement fusion
Hicks, Damien G. (Damien George), 1971- (1999)
- Advisor: Richard D. Petrasso
- Department of Nuclear Engineering
An improved method for measuring the absolute DD neutron yield and calibrating neutron time-of-flight detectors in inertial confinement fusion experiments
Waugh, C. (Caleb Joseph) (2014)
- Advisor: Richard D. Petrasso
- Department of Nuclear Science and Engineering
Implementation of scattering pinhole diagnostic for detection of fusion products on CR-39 at high particle fluence
Orozco, David, S.B (2014)
- Advisor: Richard D. Petrasso
- Department of Physics
Analysis of vacuum and argon gas fill data from the MiniCLEAN dark matter experiment
Jaditz, Stephen H (2015)
- Advisor: Joseph A. Formaggio
- Department of Physics
Imaging the ionization track of alpha recoils for the directional detection of weapons grade plutonium
Koch, William Lawrence (2013)
- Advisor: Peter Fisher
- Department of Physics