Laura Baudis: Dark Matter
Only a small part of the matter in the universe is visible, a large part of the matter is dark - more in this Talk
Only a small part of the universe is directly visible, the major part of matter is dark. Dark matter can only be detected indirectly via its gravitational interactions with luminous matter. Dark matter could consist of massive, still unknown particles, which originated in an early universe. UZH physicist Laura Baudis tries to detect these particles with the help of sensitive detectors which use liquid xenon.
https://www.youtube.com/watch?feature=youtu.be&v=J10EaonNV2A
More news
- DECTRIS Prize
- Proseminar in experimental physics 2018
- How particle-physics works: hope and worries on the B-physics anomalies
- Bismuth on higher ground
- Novel Insulators with Conducting Edges
- Higgs boson reaches the top
- Open Day 2018, November 2, 15:00-19:00
- Open Day 2018, November 2
- LHCb - a new charming particle
- LHCb - where has all the antimatter gone?
- 5th Higgs anniversary
- Workshop on Topological Phenomena in Quantum Matter
- XENON1T probes deeper into Dark Matter
- Mechanical workshop - courses for students
- CMS - upgrade barrel pixel detector
- PPC 2018 workshop, August 2018
- Darwin experiment in CERN Courier
- Scalable growth of two dimensional (2D) materials
- Water Drops as a Model for Static Friction and Adhesion
- Publication in Nature: new Results from GERDA
- Xenoscope: an observatoy for dark matter and neutrinos
- Dr. William D. Phillips: Time, Einstein and the coolest Stuff in the Universe
- Schrödinger in Arosa
- 6th Beam Telescope and Test Beam Workshop, 16th - 19th January 2018
- Particle Physics Masterclass 2018
- ZPW2018 - Flavours: light, heavy and dark, 15.-17. Jan. 2018
- Theory meets Experiment in Particle Physics