Impact of a cryogenic baffle system on the suppression of radon-induced background in the KATRIN Pre-Spectrometer

Görhardt, S.; Bonn, J.; Bornschein, L.; Drexlin, G.; Fränkle, F. M.; Gumbsheimer, R.; Mertens, S.; Müller, F.; Thümmler, T.; Wandkowsky, N.; Weinheimer, C.; Wolf, J.

doi:10.1088/1748-0221/13/10/t10004

Cited by 16 publications

(17 citation statements)

References 31 publications

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“…Recent studies have shown that an elevated background can strongly affect the KATRIN sensitivity. KATRIN successfully applied methods to reduce radon-induced backgrounds [195], however, further measures are needed and are being explored to reach the design background rate of 10 mcps.…”

Section: Katrinmentioning

confidence: 99%

Status of light sterile neutrino searches

Böser

Buck

Giunti

et al. 2020

Progress in Particle and Nuclear Physics

206

195

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A number of anomalous results in short-baseline oscillation may hint at the existence of one or more light sterile neutrino states in the eV mass range and have triggered a wave of new experimental efforts to search for a definite signature of oscillations between active and sterile neutrino states. The present paper aims to provide a comprehensive review on the status of light sterile neutrino searches in mid-2019: we discuss not only the basic experimental approaches and sensitivities of reactor, source, atmospheric, and accelerator neutrino oscillation experiments but also the complementary bounds arising from direct neutrino mass experiments and cosmological observations. Moreover, we review current results from global oscillation analyses that include the constraints set by running reactor and atmospheric neutrino experiments. They permit to set tighter bounds on the active-sterile oscillation parameters but as yet are not able to provide a definite conclusion on the existence of eV-scale sterile neutrinos.

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Section: Katrinmentioning

confidence: 99%

Status of light sterile neutrino searches

Böser

Buck

Giunti

et al. 2020

Progress in Particle and Nuclear Physics

206

195

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“…A fraction of the background arises from Rn-219 and Rn-220 decays in the volume of the main spectrometer and subsequently magnetically stored electrons. Through ionization of residual gas, this primary stored electrons creates numerous low-energy secondary electrons, which can reach the detector and create background [27,[54][55][56][57]. These background events are correlated in time, and hence the total background rate is not Poisson distributed.…”

Section: Introductionmentioning

confidence: 99%

First operation of the KATRIN experiment with tritium

et al. 2020

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The determination of the neutrino mass is one of the major challenges in astroparticle physics today. Direct neutrino mass experiments, based solely on the kinematics of β-decay, provide a largely model-independent probe to the neutrino mass scale. The Karlsruhe Tritium Neutrino (KATRIN) experiment is designed to directly measure the effective electron antineutrino mass with a sensitivity of 0.2 eV (90% CL). In this work we report on the first operation of KATRIN with tritium which took place in 2018. During this commissioning phase of the tritium circulation system, excellent agreement of the theoretical prediction with the recorded spectra was found and stable conditions over a time period of 13 days could be established. These results are an essential prerequisite for the subsequent neutrino mass measurements with KATRIN in 2019.

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“…Owing to its origin from a small number of 219 Rn decays, this background results in extended time periods where the background level is enhanced yielding a small non-Poissonian component [43]. Liquid-nitrogen cooled copper baffles at the inlet of the NEG pumps act as a countermeasure [44]. The coverage of the inner surface of the main spectrometer with a monolayer of H 2 O, originating from an imperfect bake out of the prespectrometer, has led to the formation of a thin layer of H 2 O covering the baffle surface.…”

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confidence: 99%