Measurement of the radon concentration in purified water in the Super-Kamiokande IV detector

The radioactive noble gas radon (Rn) can be a serious background to underground particle physics experiments studying phenomena that deposit energy comparable to its decay products. Low energy solar neutrino measurements at Super-Kamiokande suffer from these backgrounds and therefore require precise characterization of the Rn concentration in the detector's ultra-pure water. To this end, we have developed a measurement system consisting of a Rn extraction column, an activated charcoal trap, and a Rn detector. In this article, we discuss the design, calibration, and performance of the Rn extraction column. We also describe the design of the measurement system and evaluate its performance, including its background. Using this system we measured the Rn concentration in Super-Kamiokande's water during the period May 2014 to October 2015. The measured Rn concentration in the supply (return) lines of the water circulation system and found $1.62\pm0.15$ $\mathrm{mBq/m^{3}}$ ($9.06\pm0.63$ $\mathrm{mBq/m^{3}}$). Water sampled from the center (bottom) region of the detector itself had a concentration of $<0.14$ $\mathrm{mBq/m^{3}}$ ($95\%$ C.L.) ($2.44\pm0.24$ $\mathrm{mBq/m^{3}}$).