0000000001234974

AUTHOR

T. Thuemmler

showing 2 related works from this author

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

2018

The KATRIN experiment will determine the effective electron anti-neutrino mass with a sensitivity of 200 meV/c$^2$ at 90% CL. The energy analysis of tritium $\beta$-decay electrons will be performed by a tandem setup of electrostatic retarding spectrometers which have to be operated at very low background levels of $<10^{-2}$ counts per second. This benchmark rate can be exceeded by background processes resulting from the emanation of single $^{219,220}$Rn atoms from the inner spectrometer surface and an array of non-evaporable getter strips used as main vacuum pump. Here we report on a the impact of a cryogenic technique to reduce this radon-induced background in electrostatic spectrometer…

Physics - Instrumentation and DetectorsFOS: Physical sciencesInstrumentation and Detectors (physics.ins-det)Nuclear Experiment (nucl-ex)Astrophysics - Instrumentation and Methods for AstrophysicsNuclear ExperimentInstrumentation and Methods for Astrophysics (astro-ph.IM)
researchProduct

Energy calibration and monitoring of the KATRIN experiment

2011

A new high precision voltage divider has been built for monitoring the analysing potential of the KATRIN main spectrometer. In addition a condensed 83mKr calibration source has been set up at the modified 1 eV resolving Mainz spectrometer, our measurements show that energy calibration and monitoring for KATRIN is feasible at the few ppm level.

PhysicsNuclear physicsNuclear and High Energy PhysicsSpectrometerchemistryVoltage dividerKryptonCalibrationchemistry.chemical_elementAtomic and Molecular Physics and OpticsEnergy (signal processing)KATRINNuclear Physics B - Proceedings Supplements
researchProduct