Jonathan Gill scite author profile

Realistic surrogate nuclear debris is needed within the nuclear forensics community to test and validate post-detonation analysis techniques. Here we outline a novel process for producing bulk surface debris using a high temperature furnace. The material developed in this study is physically and chemically similar to trinitite (the melt glass produced by the first nuclear test). This synthetic nuclear melt glass is assumed to be similar to the vitrified material produced near the epicenter (ground zero) of any surface nuclear detonation in a desert environment. The process outlined here can be applied to produce other types of nuclear melt glass including that likely to be formed in an urban environment. This can be accomplished by simply modifying the precursor matrix to which this production process is applied. The melt glass produced in this study has been analyzed and compared to trinitite, revealing a comparable crystalline morphology, physical structure, void fraction, and chemical composition. Video LinkThe video component of this article can be found at

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Modern Advancements in Post-Detonation Nuclear Forensic Analysis

Stratz¹,

Gill²,

Auxier³

et al. 2016

IJNS

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Deterring nuclear terrorism is a critical national asset to support the preclusion of non-state actors from initiating a nuclear attack on the United States. Successful attribution of a detonated nuclear weapon, which includes locating the source of the radiological materials used in the weapon, allows for timely responsive measures that prove essential in the period following a nuclear event. In conjunction with intelligence and law enforcement evidence, the technical nuclear forensics (TNF) post-detonation community supports this mission through the development and advancement of expertise to characterize weapon debris through a rapid, accurate, and detailed approach. Though the TNF field is young, numerous strides have been made in recent years toward a more robust characterization capability. This work presents modern advancements in post-detonation expertise over the last ten years and demonstrates the need for continued extensive research in this field.

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Production of Synthetic Nuclear Melt Glass

Molgaard

Auxier

Giminaro

et al. 2016

JoVE

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Jonathan Gill

Compositional planning for development of synthetic urban nuclear melt glass

Production of Synthetic Nuclear Melt Glass

Modern Advancements in Post-Detonation Nuclear Forensic Analysis

Production of Synthetic Nuclear Melt Glass

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