Technical University of Munich | 2015 Sep 09
New detectors allow search for lightweight dark matter particles
[img3="Mounting the CRESST experimental setup (Photo: MPP)"]http://www.tum.de/typo3temp/_processed_ ... 2c4852.jpg[/img3][hr][/hr]The Earth, planets, stars, and galaxies form only the visible portion of the matter in the universe. Greater by far is the share accounted for by invisible “dark matter”. Scientists have searched for the particles of dark matter in numerous experiments – so far, in vain. With the CRESST experiment, the search radius can be considerably expanded: The CRESST detectors are being overhauled and are then able to detect particles whose mass lies below the current measurement range. As a consequence, the chance of tracking dark matter down goes up.
Theoretical models and astrophysical observations leave hardly any doubt that dark matter exists: Its share is five times more than all visible material. “So far a likely candidate for the dark matter particle was thought to be a heavy particle, the so-called WIMP,” explains Dr. Federica Petricca, a researcher at the Max Planck Institute for Physics and spokesperson of the CRESST experiment (Cryogenic Rare Event Search with Superconducting Thermometers). “Most current experiments therefore probe a measurement range between 10 and 1000 GeV/c2.”
The current lower limit of 10 GeV/c2 (GeV: gigaelectronvolt; c: speed of light) roughly corresponds to the mass of a carbon atom. However, recently various new theoretical models have been developed with the potential of solving long-standing problems, like the difference between the simulated and the observed dark matter profile in galaxies. Several of theses models hint towards dark matter candidates below the mass of the traditional WIMP. ...
Results on light dark matter particles with a low-threshold CRESST-II detector - CRESST Collaboration
- arXiv.org > astro-ph > arXiv:1509.01515 > 04 Sep 2015