Göttingen 2025 – wissenschaftliches Programm

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T: Fachverband Teilchenphysik

T 99: Methods in Astroparticle Physics IV

T 99.2: Vortrag

Freitag, 4. April 2025, 09:15–09:30, VG 3.101

Reduction of the molecular background in an atomic tritium setup using different shroud configurations — •Daniel Kurz, Leonard Hasselmann, and Caroline Rodenbeck for the Atomic Tritium at TLK collaboration — KIT-IAP, Karlsruhe, Germany

The investigation of the tritium β-decay spectrum at its endpoint is a direct way to measure the neutrino mass. Using molecular tritium reduces the achievable sensitivity by a broadening due to rotational and vibrational excitations of the ³HeT⁺ daughter molecule. The use of atomic tritium overcomes this fundamental limitation.

After a commissioning phase with inactive hydrogen, the "Beam for an Atomic Tritium Experiment" setup at Tritium Laboratory Karls-ruhe is going to demonstrate the production of atomic tritium. To dissociate the hydrogen molecules, a commercially available dissociation device, the tectra H-flux atomic hydrogen source, is used. Investigating the beam composition is done by a HIDEN DLS10 quadrupole mass spectrometer (QMS) equipped with a cross-beam ion source.

Previous results show that recombination by wall contacts produces a major molecular background. To prevent recombined molecules from reaching the QMS beam shaping skimmers and a shroud are indispensable. The latter is an actively pumped tube around the QMS. In this, two opposite holes act as a skimmer trimming the beam to the size of the QMS entrance aperture. Molecules recombined inside the QMS are pumped away.

This talk presents the results investigating the reduction of the molecular background using different shroud configurations.