PhD defense Andrea Tiseni @ UvA
12 - 01 - 2018 om 13:00 tot 12 - 01 - 2018 om 14:00
“Low-mass Dark Matter search with the XENON100 experiment”
Andrea Tiseni, promovendus aan het Nikhef, verdedigt zijn proefschrift vrijdag 12 januari 2018 aan de Universiteit van Amsterdam.
It is hypothesized that 26% of the mass and energy content of the universe consists of Dark Matter. The most promising Dark Matter candidates are Weakly Interacting Massive Particles (WIMP). If WIMPs are the Dark Matter particles, then they could be directly detected via their scattering off nuclei. The XENON100 experiment aims to detect the scattering of a WIMP with a xenon nucleus. This experiment is a xenon-based dual-phase (liquid-gas) Time Projection Chamber (TPC). The interaction of a particle in the TPC produces both scintillation photons and ionization electrons, which are both detected as light signals by photomultipliers.
So far, the XENON100 experiment has not observed WIMPs, and exclusion limits have been produced. The data analysis relies on an accurate description of the backgrounds. In this thesis I present an analysis that assumes potentially unknown backgrounds to be present in the data. In this way, a WIMP exclusion limit without background subtraction is calculated with a minimum WIMP-nucleon cross section of 2.05 × 10-45 cm2 at a WIMP mass of 50 GeV.
Furthermore, I developed a new method to enhance the sensitivity of the XENON100 experiment towards low-mass WIMPs using solely the ionization signal to calculate the recoil energy. Using this method, the sensitivity of the XENON100 experiment is improved by several orders of magnitude for WIMP masses below 7 GeV, excluding a WIMP-nucleon cross section of 1.4 × 10-41 cm2 at a WIMP mass of 6 GeV.
Low-mass Dark Matter search with the XENON100 experiment (pdf)
De promotie vindt plaats om 13.00 in de Oude Lutherse kerk (aula), Singel 411, Amsterdam.
Promotoren: prof. dr. F.L. Linde en prof. dr. A.P. Colijn
contact: Andrea Tiseni