SCNAT and its network are committed to a sustainable science and society. They support policy-making, administration and business with expert knowledge and actively participate in public discourse. They strengthen the exchange across scientific disciplines and promote early career academics.

Image: Sebastian, stock.adobe.com

Surprising Signal in Dark Matter Detector

a press release from the University of Zurich

When analyzing data from the XENON1T detector for dark matter, a signal excess was observed. The UZH researchers do not yet know for sure where this unexpected signal comes from. They say the origins could be relatively banal, but they could also indicate the existence of new particles or hitherto unknown properties of neutrinos.

XENON1T
Image: zVg

Since the end of 2018, the XENON1T detector in the underground laboratory at Gran Sasso, part of the National Institute for Nuclear Physics in Italy, has been searching for particles of dark matter, the material that makes up 85 percent of the matter in the universe. The world’s most sensitive detector has not yet found any particles of dark matter, but some unusual events have been observed. If a particle flies through the liquefied xenon, it may collide with the xenon atoms, thereby triggering weak light signals and hitting electrons from the affected xenon atom. When comparing the XENON1T data with the expected 232 events of known particles, however, the researchers found a surprising excess of 53 events.

more details in: link

Categories

  • Particle Physics

Contact

Swiss Institute of Particle Physics (CHIPP)
c/o Prof. Dr. Ben Kilminster
UZH
Department of Physics
36-J-50
Winterthurerstrasse 190
8057 Zürich
Switzerland