Johanna Wydra scite author profile

Since the discovery of neutrino oscillations, we know that neutrinos have non-zero mass. However, the absolute neutrino-mass scale remains unknown. Here we report the upper limits on effective electron anti-neutrino mass, mν, from the second physics run of the Karlsruhe Tritium Neutrino experiment. In this experiment, mν is probed via a high-precision measurement of the tritium β-decay spectrum close to its endpoint. This method is independent of any cosmological model and does not rely on assumptions whether the neutrino is a Dirac or Majorana particle. By increasing the source activity and reducing the background with respect to the first physics campaign, we reached a sensitivity on mν of 0.7 eV c–2 at a 90% confidence level (CL). The best fit to the spectral data yields $${{\mbox{}}}{m}_{\nu }^{2}{{\mbox{}}}$$ m ν 2 = (0.26 ± 0.34) eV2 c–4, resulting in an upper limit of mν < 0.9 eV c–2 at 90% CL. By combining this result with the first neutrino-mass campaign, we find an upper limit of mν < 0.8 eV c–2 at 90% CL.

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New Constraint on the Local Relic Neutrino Background Overdensity with the First KATRIN Data Runs

Aker¹,

Batzler²,

Beglarian³

et al. 2022

Phys. Rev. Lett.

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The precision measurement of the tritium β-decay spectrum performed by the KATRIN experiment provides a unique way to search for general neutrino interactions (GNI). All theoretical allowed GNI terms involving neutrinos are incorporated into a low-energy effective field theory, and can be identified by specific signatures in the measured tritium β-spectrum. In this paper an effective description of the impact of GNI on the β-spectrum is formulated and the first constraints on the effective GNI parameters are derived based on the 4 Mio. electrons collected in the second measurement campaign of KATRIN in 2019. In addition, constraints on selected types of interactions are investigated, thereby exploring the potential of KATRIN to search for more specific new physics cases, including a right-handed W boson, a charged Higgs or leptoquarks.

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Improved eV-scale sterile-neutrino constraints from the second KATRIN measurement campaign

Aker¹,

Batzler²,

Beglarian³

et al. 2022

Phys. Rev. D

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KATRIN: status and prospects for the neutrino mass and beyond

Aker¹,

Balzer²,

Batzler³

et al. 2022

J. Phys. G: Nucl. Part. Phys.

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The Karlsruhe Tritium Neutrino (KATRIN) experiment is designed to measure a high-precision integral spectrum of the endpoint region of T2 β decay, with the primary goal of probing the absolute mass scale of the neutrino. After a first tritium commissioning campaign in 2018, the experiment has been regularly running since 2019, and in its first two measurement campaigns has already achieved a sub-eV sensitivity. After 1000 days of data-taking, KATRIN’s design sensitivity is 0.2 eV at the 90% confidence level. In this white paper we describe the current status of KATRIN; explore prospects for measuring the neutrino mass and other physics observables, including sterile neutrinos and other beyond-Standard-Model hypotheses; and discuss research-and-development projects that may further improve the KATRIN sensitivity.

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Search for Lorentz-invariance violation with the first KATRIN data

Aker¹,

Batzler²,

Beglarian³

et al. 2023

Phys. Rev. D

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Johanna Wydra

Direct neutrino-mass measurement with sub-electronvolt sensitivity

New Constraint on the Local Relic Neutrino Background Overdensity with the First KATRIN Data Runs

Improved eV-scale sterile-neutrino constraints from the second KATRIN measurement campaign

KATRIN: status and prospects for the neutrino mass and beyond

Search for Lorentz-invariance violation with the first KATRIN data

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