Single-View 3-D Reconstruction of Correlated Gamma-Neutron Sources

Monterial, Mateusz; Marleau, Peter; Pozzi, Sara A.

doi:10.1109/tns.2017.2647952

Cited by 4 publications

(4 citation statements)

References 21 publications

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“…Fast scintillation timing is also important for a number of radiation detection applications including correlated particle counting and imaging . To demonstrate that the faster fluorescence timing of G5 was duplicated in the scintillation response, a time-correlated single-photon-counting experiment was used to construct pulse shapes under 137 Cs gamma irradiation (see Supporting Information).…”

Section: Resultsmentioning

confidence: 99%

Taking Advantage of Disorder: Small-Molecule Organic Glasses for Radiation Detection and Particle Discrimination

et al. 2017

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A series of fluorescent silyl-fluorene molecules were synthesized and studied with respect to their photophysical properties and response toward ionizing neutron and gamma-ray radiation. Optically transparent and stable organic glasses were prepared from these materials using a bulk melt-casting procedure. The prepared organic glass monoliths provided fluorescence quantum yields and radiation detection properties exceeding the highest-performing benchmark materials such as solution-grown trans-stilbene crystals. Co-melts based on blends of two different glass-forming compounds were prepared with the goal of enhancing the stability of the amorphous state. Accelerated aging experiments on co-melt mixtures ranging from 0% to 100% of each component indicated improved resistance to recrystallization in the glass blends, able to remain fully amorphous for >1 month at 60 °C. Secondary dopants comprising singlet fluorophores or iridium organometallic compounds provided further improved detection efficiency, as evaluated by light yield and neutron/gamma particle discrimination measurements. Optimized singlet and triplet doping levels were determined to be 0.05 wt % 1,4-bis(2-methylstyryl)benzene singlet fluorophore and 0.28 wt % Ir, respectively.

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Section: Resultsmentioning

confidence: 99%

Taking Advantage of Disorder: Small-Molecule Organic Glasses for Radiation Detection and Particle Discrimination

et al. 2017

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“…(c) Nuclear Substantial Reconstruction Monterial et al [16] used 3D image reconstruction of neutron sources that emit correlated gammas. This aim at preventing nuclear threat search, safeguards and non-proliferation.…”

Section: (B) Site and Cultural Artifacts Reconstructionmentioning

confidence: 99%

Computer Vision Based 3D Reconstruction : A Review

Ham

Wesley

Hendra

2019

IJECE

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3D reconstruction are used in many fields starts from the object reconstruction such as site, and cultural artifacts in both ground and under the sea levels. The scientist are beneficial for these task in order to learn and keep the environment into 3D data due to the extinction. In this paper explained vision setup that is commonly used such as single camera, stereo camera, Kinect / Structured Light/ Time of Flight camera and fusion approach. The prior works also explained how the 3D reconstruction perform in many fields and using various algorithms.

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“…An additional advantage of fast γ-neutron coincidence detection compared with detection of neutrons alone is the energy independence of the photon time of flight, which reduces the correlation time spread between the detected particles. It was previously proposed to use time-of-flight (TOF) information for event-by-event three-dimensional (3D) imaging of SNM in neutron scatter cameras ( 19 ) by combining the fast coincidence detection of a neutron scattering between two detector elements with the detection of a correlated photon in a third detector element. However, for these triple-coincidence systems, the detection efficiency will be notably reduced compared with the already low efficiency of neutron scatter imaging and it may not be useful for applications where a rapid assessment is needed.…”

Section: Introductionmentioning

confidence: 99%

Rapid imaging of special nuclear materials for nuclear nonproliferation and terrorism prevention

2021

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We introduce a neutron-gamma emission tomography (NGET) technique for rapid detection, three-dimensional imaging, and characterization of special nuclear materials like weapons-grade plutonium and uranium. The technique is adapted from fundamental nuclear physics research and represents a previously unexplored approach to the detection and imaging of small quantities of these materials. The method is demonstrated on a radiation portal monitor prototype system based on fast organic scintillators, measuring the characteristic fast time and energy correlations between particles emitted in nuclear fission processes. The use of these correlations in real time in conjunction with modern machine learning techniques provides unprecedented imaging efficiency and high spatial resolution. This imaging modality addresses global security threats from terrorism and the proliferation of nuclear weapons. It also provides enhanced capabilities for addressing different nuclear accident scenarios and for environmental radiological surveying.

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Single-View 3-D Reconstruction of Correlated Gamma-Neutron Sources

Cited by 4 publications

References 21 publications

Taking Advantage of Disorder: Small-Molecule Organic Glasses for Radiation Detection and Particle Discrimination

Taking Advantage of Disorder: Small-Molecule Organic Glasses for Radiation Detection and Particle Discrimination

Computer Vision Based 3D Reconstruction : A Review

Rapid imaging of special nuclear materials for nuclear nonproliferation and terrorism prevention

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