Nettsider med emneord «Dark Matter»

portrettbildet av en smilende man
Publisert 11. okt. 2021 09:08

Federico Urban, Institute of Physics, Czech Academy of Sciences.

dark web and black filaments
Publisert 29. mars 2022 21:15

Three teams of scientists from Norway, Czech Republic and Iceland join expertises in the attempt to shed light onto the nature of the most abundant ingredient in the Universe: dark matter.

Publisert 15. mars 2021 14:25

Symmetries play a crucial role in physics. Supersymmetry (SUSY) relates integer spin particles (bosons) and half-integer spin particles (fermions). It allows unification of the electroweak and strong interactions, proposes dark matter candidates, and predicts five Higgs bosons (3 neutral and 2 charged ones). Processes of interest involve superpartners of the leptons (superpartners have a "~" above the particle), of the gauge and Higgs boson(s), as well as a dark matter particle, which is predicted to be the lightest supersymmetric particle (LSP).

Publisert 15. mars 2021 14:16

Cherenkov Telescope Array (CTA) er et nytt observatorium som har byggestart i 2022.

Publisert 2. mars 2015 08:30

Looking for Dark Matter using High Energy Gamma Rays

Publisert 4. nov. 2010 12:31
Publisert 1. nov. 2013 15:30
Publisert 2. okt. 2018 13:59
Publisert 4. nov. 2010 12:32
Publisert 12. sep. 2011 15:20
Publisert 12. sep. 2011 15:17
Publisert 26. aug. 2016 15:39
Publisert 19. sep. 2016 10:28
Publisert 30. aug. 2016 12:32
Publisert 11. sep. 2017 11:15
Publisert 18. jan. 2022 13:39
Publisert 13. jan. 2015 15:36
Publisert 15. mars 2021 14:26

Do new fundamental forces show up at the LHC the way the Z and Higgs bosons did? According to superstring theories, which propose to unify all fundamental forces, including gravity, there is room for new forces to be mediated by new gauge bosons, known as Z’ and W’. The W’ boson is also predicted by theories aiming at restoring parity (left-right) symmetry at high energies. This work consists of: (i) a detailed study and implementation into MC generators of various theories beyond the SM, (ii) an analysis of ATLAS data, taken at the highest available energies, and a comparison to simulation data. You will make use of one of the following processes:

Publisert 21. feb. 2018 09:33
Publisert 7. apr. 2015 10:22

Searching for the nature of Dark Matter combining Astro-, Astroparticle- and Particle Physics.