Jerry Busenitz scite author profile

Jerry Busenitz

4Publications

5Citation Statements Received

109Citation Statements Given

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105

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University of Alabama

Publications

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A new method for evaluating the effectiveness of plastic packaging against radon penetration

Meng

Busenitz

Piepke

2020

Applied Radiation and Isotopes

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Deposition of 222 Rn daughters onto detector materials pose a risk to ultra-low background experiments. To mitigate this risk, a common approach is to enclose detector components in sealed plastic bags made of films known to be effective barriers against radon. We describe a new method to evaluate radon barriers which is unique in that (a) it gauges not only the intrinsic resistance to radon penetration of a plastic film but also the integrity of bags fabricated from the film and sealed following some protocol, and (b) it employs gamma spectroscopy rather than alpha spectroscopy. We report the results of applying this method to sealed bags fabricated from polypropylene, Nylon, Mylar, metallized Mylar, FEP, and PFA. Evaluation of the fluoropolymers FEP and PFA as radon barriers are the first such measurements.

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Design and characterization of AmLi neutron sources for the LZ experiment

et al. 2023

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In this paper we describe the development, testing, and characterization of three low-emission rate AmLi neutron sources. The sources are used to calibrate the nuclear recoil response of the LUX-ZEPLIN (LZ) dark matter experiment. The sources' neutron emission rate was measured using 3He proportional tubes. The sources' gamma emissions were characterized using a high-purity germanium (HPGe) detector. Source-validated Geant4 Monte Carlo simulations allowed to calibrate the Ge and neutron detectors' responses.

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Radon emanation from dust of varying composition and size

Meng¹,

Busenitz²,

Piepke³

et al. 2022

J. Inst.

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222Rn emanating from environmental dust constitutes an important background component for many low-energy, low-rate experiments. Radon emanation rates from dust and rock, thus, are important for experiment planning. In this paper, we report measured radon emanation fractions for five types of dry dust differing in grain size and composition. These data were obtained by a novel technique in γ-spectroscopy, measuring emanated and non-emanated 222Rn progeny activities as well as the parent 226Ra activity in a time series. The range of observed radon emanation fractions is (3.7 ± 2.0)% to (16.2 ± 0.9)%. Four of the five samples are standardized samples available commercially, so additional investigations of these samples may be readily carried out.

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Radon Emanation from Dust of Varying Composition and Size

Meng¹,

Busenitz²,

Piepke³

et al. 2022

Preprint

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222 Rn emanating from environmental dust constitutes an important background component for many low-energy, low-rate experiments. Radon emanation rates from dust and rock, thus, are important for experiment planning. In this paper, we report measured radon emanation fractions (defined here as the ratio of the transient to the total radon progeny activity of a sample) for five types of dust differing in grain size and composition. This data was obtained using highpurity germanium detectors (HPGe), measuring emanated and non-emanated 222 Rn progeny activities and their temporal change. The range of observed radon emanation fractions ranges from 3.5 ± 1.9% and 16.1 ± 0.84%. The impact of the water, contained in the dust, might have on the emanation fraction was evaluated and found to be small. The data presented here do not show a clear correlation between dust particle size and emanation fraction, as hypothesized when starting this study. Our measurement results are compared to expectations of radon emanation models.

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Jerry Busenitz

A new method for evaluating the effectiveness of plastic packaging against radon penetration

Design and characterization of AmLi neutron sources for the LZ experiment

Radon emanation from dust of varying composition and size

Radon Emanation from Dust of Varying Composition and Size

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