Daniel Lowe scite author profile

Daniel Lowe

5Publications

20Citation Statements Received

18Citation Statements Given

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Affiliations

University of Nevada, Las Vegas, National Security Technologies (United States), Keystone College

Publications

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Lanthanum halide nanoparticle scintillators for nuclear radiation detection

Guss¹,

Guise²,

Yuan

et al. 2013

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Nanoparticles with sizes <10 nm were fabricated and characterized for their nanocomposite radiation detector properties. This work investigated the properties of several nanostructured radiation scintillators, in order to determine the viability of using scintillators employing nanostructured lanthanum trifluoride. Preliminary results of this investigation are consistent with the idea that these materials have an intrinsic response to nuclear radiation that may be correlated to the energy of the incident radiation. V

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Effect of krypton admixture in deuterium on neutron yield in a megaampere dense plasma focus

Hahn

Housley

Narkis

et al. 2020

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Experiments on a MA-class Dense Plasma Focus (DPF) device have been carried out to investigate changes in neutron production by adding moderate amounts of krypton to a deuterium fill gas. The neutron yield from Z-pinch devices, including DPFs, conventionally scales as the peak current to the fourth power. However, a dramatic drop-off from ∼I4 scaling occurs above 3 MA, which recent modeling [D. T. Offermann et al., Phys. Rev. Lett. 116, 195001 (2016)] attributed to the transition in the predominant neutron production mechanism from beam-target fusion to thermonuclear fusion. Previously, the addition of Kr (and other high-Z) dopants has been shown to enhance beam-target fusion yields at currents below 300 kA, with optimal concentrations at 1%–2% Kr, whereas here we show that the optimal concentration of Kr at the MA level is near 0.1% by volume—elucidating a trend in the optimal Kr doping concentration as a function of the device scale. The neutron time-of-flight data reveal that Kr doping creates shorter and more intense neutron bursts, likely due a tighter but unstable pinch, highlighting a key trade-off for Kr doping.

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Characterization of the radiation environment at the UNLV accelerator facility during operation of the Varian M6 linac

Hodges

Barzilov

Chen

et al. 2016

Radiation Physics and Chemistry

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Direct observation of electrothermal instability structures in the skin layer of an intensely Ohmically heated conductor

Awe¹,

Yelton²,

Yu³

et al. 2015

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Computational study of radiation doses at UNLV accelerator facility

et al. 2017

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Abstract.A Varian K15 electron linear accelerator (linac) has been considered for installation at University of Nevada, Las Vegas (UNLV). Before experiments can be performed, it is necessary to evaluate the photon and neutron spectra as generated by the linac, as well as the resulting dose rates within the accelerator facility. A computational study using MCNPX was performed to characterize the source terms for the bremsstrahlung converter. The 15 MeV electron beam available in the linac is above the photoneutron threshold energy for several materials in the linac assembly, and as a result, neutrons must be accounted for. The angular and energy distributions for bremsstrahlung flux generated by the interaction of the 15 MeV electron beam with the linac target were determined. This source term was used in conjunction with the K15 collimators to determine the dose rates within the facility.

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Daniel Lowe

Lanthanum halide nanoparticle scintillators for nuclear radiation detection

Effect of krypton admixture in deuterium on neutron yield in a megaampere dense plasma focus

Characterization of the radiation environment at the UNLV accelerator facility during operation of the Varian M6 linac

Direct observation of electrothermal instability structures in the skin layer of an intensely Ohmically heated conductor

Computational study of radiation doses at UNLV accelerator facility

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