29 June 2018 to 4 July 2018
IBS HQ, Daejeon, Korea
Asia/Seoul timezone
There will be Welcome Reception at 18:00 on June 28, 2018

Status of the KATRIN experiment and the first tritium measurements

3 Jul 2018, 17:30
30m
Room A (IBS HQ, Daejeon, Korea)

Room A

IBS HQ, Daejeon, Korea

Speaker

Dr Wonqook Choi (Karlsruher Institut für Technologie (KIT))

Description

The goal of the \textbf{KA}rlsruhe \textbf{TRI}tium \textbf{N}eutrino (KATRIN) experiment is the determination of the electron neutrino mass $m(\nu_\mathrm{e})$ with a sensitivity of $0.2$\,eV/c$^2$ (90$\%$ C.L.) by measuring an integrated energy spectrum of electrons from tritium $\beta$-decay. The measurement of the tritium $\beta$-spectrum close to its endpoint at $E_0 = 18.6~\mathrm{keV}$ enables a model-independent investigation of the absolute neutrino mass scale. The KATRIN experiment consists of a $70$~m long beam line where electrons from a windowless gaseous tritium source (WTGS) are guided by magnetic fields to an electrostatic retardation spectrometer (MAC-E filter, energy resolution $\Delta E = 0.93~\mathrm{eV}$ for $E = 18.6~\mathrm{keV}$) and counted with a segmented silicon detector. After a comprehensive construction and commissioning phase using photoelectrons and conversion electrons from \textsuperscript{83m}Kr, tritium data-taking with KATRIN commences this year. In preparation for nominal tritium operations, a measurement campaign with an initial concentration of about 1~\% tritium in a deuterium-tritium gas mixture in the WGTS was carried out. This run allows in-depth studies of hardware performance, systematic effects, and overall stability of the systems. The talk gives an overview of the current status of the experiment, focusing on the results of the recent first data-taking period with tritium. This project is supported by BMBF project 05A17VK2, the Helmholtz Association and the Helmholtz Young Investigator Group VH-NG-1055.

Primary author

Dr Wonqook Choi (Karlsruher Institut für Technologie (KIT))

Presentation materials