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The design of a mobile synthetic aperture collimated gamma detector for passive HEU sourcesChin, Michael Raymond 13 January 2014 (has links)
This thesis covers the individual work of Michael Chin as part of the sponsored research project funded by the U.S. State Department in support of a computational design of a "Mobile Pit Verification System" (MPVS), a mobile “drive by” passive radiation detection system to be applied in special nuclear materials (SNM) storage facilities for validation and compliance purposes. The MPVS system is intended to enable a comprehensive, rapid verification and validation of stored nuclear weapon core physics packages containing SNM, or so-called “weapon pits,” in weapon materials and stockpile storage facilities. The MPVS platform is designed to move at a constant speed and accumulate a signal for each stored weapon pit container. The gamma detector was selected to be a 4 × 4 × 8 cubic inch CsI detector while the neutron detector array designed for the “Transport Simulation and Validation of a Synthetic Aperture SNM Detection System (“T-SADS”) project was used in conjunction with this work; T-SADS was a 3 year project funded by DOE-NNSA which was completed on May 2013.
The computational design effort for this project was completed in April 2013, and leveraged novel computational radiation transport methods, algorithms, and SNM identification methods, including a synthetic aperture collection approach, and a new gamma ratio methodology for distinguishing between naturally occurring radiation materials and weapon class SNM materials. Both forward and adjoint transport methods were utilized to characterize the adjoint reaction rate as a function of inter-source spacing, collimation thickness, linear and angular field of view, source age, source type, source geometry, and mobile platform speed. The integrated count was then compared with background radiation and the associated probabilities of detection and false alarm were then computed.
Publications resulting from this research were published in PHYSOR 2012, presented at the 53rd annual Proceedings of the INMM, and at the Mathematics & Computation 2013 Conference.
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Contributions expérimentales originales en chambres réverbérantes à brassage de modes et en cavités surdimensionnées / Original experimental contributions in reverberation chambers and in oversized cavitiesSoltane, Ayoub 17 December 2018 (has links)
La chambre réverbérante à brassage de modes (CRBM) est une cavité métallique fermée surdimensionnée, équipée d’un brasseur de modes. Le brassage de modes rend le champ électromagnétique homogène et isotrope à l’intérieur de la CRBM (dans son volume utile). Cette thèse illustre tout d’abord une nouvelle méthode pour évaluer les performances d’un brasseur de modes (via le spectre Doppler). Ensuite, elle présente une nouvelle méthode permettant de mesurer la surface équivalente radar (SER) d’un objet canonique en utilisant la technique de fenêtrage temporel ou time-gating. Enfin, elle présente une nouvelle méthode permettant de mesurer le diagramme de rayonnement d’une antenne dans une cavité surdimensionnée via la technique de time-gating. / The reverberation chamber (RC) is an oversized closed metal cavity, equipped with a mode-stirrer. The mode stirring makes the electromagnetic field homogeneous and isotropic inside the RC (in its useful volume). This thesis illustrates firstly a new method for evaluating the performance of a mode-stirrer (via the Doppler spectrum). Then, it presents a new method for measuring the radar cross section (RCS) of a canonical object using the time-gating technique. Finally, it presents a new method for measuring the antenna radiation pattern in an oversized cavity via the time-gating technique.
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Time-gated diffuse optical spectroscopy: experiments on layered mediaMcMaster, Carter Benjamin 26 July 2022 (has links)
No description available.
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