Upcoming events

Upcoming Workshops 2016
  • Bethe Forum on „Model building in the 13 TeV Era“, May 30 - June 3, 2016
    Convenors: Rolf Kappl (Bonn), Herbert K. Dreiner (Bonn), Christophe Grojean (DESY, Hamburg) and Martin Winkler (Bonn)
  • Bethe-Colloquium by Gilad Perez, June 2nd 2016
  • Bethe Forum on „Dark matter beyond supersymmetry“, June 13-17, 2016
    Convenors: Oleg Lebedev (Helsinki), Lars Bergstrom (Stockholm), Manuel Drees (Bonn) and Alejandro Ibarra (TUM, Munich)
  • Bethe Forum on „Mirror symmetry“, July 4-8, 2016
    Convenors: Hans Jockers (Bonn), Daniel Huybrechts (Bonn) and Albrecht Klemm (Bonn)
  • 8th Bethe Center Workshop "Particle Physics meets Cosmology", October 10 - 14, 2016, Physikzentrum Bad Honnef
    Convenors: Hans Peter Nilles, Cristiano Porciani, Matthias Bartelmann, Wilfried Buchmüller, Arthur Hebecker, Bruno Leibundgut, Thomas Konstandin, Jochen Weller

Further information will be given as soon as they are available.

Bethe Forum on "Model Building in the 13 TeV Era"

30.05.2016 – 03.06.2016
Dark matter beyond supersymmetry Poster
The Bethe Forum on "Model Building in the 13 TeV Era" will take place from May 30th to to June 3rd, 2016, in the Bethe Center for Theoretical Physics. The organizers are Rolf Kappl (Bonn), Herbert K. Dreiner (Bonn), Christophe Grojean (DESY, Hamburg) and Martin Winkler (Bonn).

Further information, the registration form and updates on the program can be found here.

Bethe Colloquium by Gilad Perez

June 2016
Poster Perez

June's Bethe Colloquium will take place on June 2nd
(4:15 pm) in Hörsaal I:

  • Gilad Perez (Weizmann Institute, Rehovot)
  • Probing the atomic Higgs force
  • Hörsaal I, Physikalisches Institut

Abstract: After the discovery of the Higgs particle at the LHC, the Higgs mechanism is expected to account for the masses of the fundamental particles. We argue that, while this is true for the electroweak gauge bosons, we are still in the dark regarding the origin of the charged fermions masses, in particular those of electron, up and down quark. It motivates us to propose a non-collider approach to probe Higgs boson couplings to these matter constituents via precision measurement of isotope shifts in atomic clock transitions. We present an experimental method which competes with and potentially surpasses the LHC in bounding the Higgs-to-light-fermion couplings. Better knowledge of the latter is an important test of the Standard Model and could lead to an alternative understanding of the flavor puzzle (the fact that the fermion masses span five orders of magnitude in scale). We will then discuss how to translate the above (potential) fantastic sensitivity to constrain the presence of heavy new particles that are well beyond the reach of near future accelerators.