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Evaluation of radon adsorption efficiency values in xenon with activated carbon fibers

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arxiv 2003.11705 v2 pith:36PHOFQQ submitted 2020-03-26 physics.ins-det

Evaluation of radon adsorption efficiency values in xenon with activated carbon fibers

classification physics.ins-det
keywords adsorptionfounda-15a-20acfsefficiencya-25activated
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The radioactive noble gas radon-222 ($\mathrm{^{222}Rn}$, or Rn) produced in the uranium series is a crucial background source in many underground experiments. We have estimated the adsorption property of Rn with Activated Carbon Fibers (ACFs) in air (Air), argon (Ar), and xenon (Xe) gas. In this study, we evaluated six ACFs, named A-7, A-10, A-15, A-20, A-25, and S-25, provided from UNITIKA Ltd. We measured intrinsic radioactivity of these ACF samples, and found A-20's radioactivity of the uranium series is $<5.5$~$\mathrm{mBq/kg}$ with $90\%$ confidence level. In Air and Ar gas, we found ACF A-15 has the adsorption efficiency of $1/10000$ reduction at maximum before saturation of Rn adsorption, and more than $97\%$ adsorption efficiency after the saturation. In Xe gas, we found ACF A-20 has the best Rn adsorption ability among tested ACFs. We also found S-25, A-25, and A-15 have similar Rn adsorption performance.

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    Electroplating copper onto 226Ra-implanted stainless steel reduces 222Rn emanation rate by 1000x.