Speaker
Description
Future colliders (electron-positron colliders like CEPC, CLIC, FCC-ee,
ILC, muon colliders MuC, and hadron colliders FCC-hh) are being designed
to tackle several riddles in modern particle physics: dark matter,
missing CP violation, neutrino masses, the origin of the flavor
structure and electroweak symmetry breaking. To determine their
physics potential, precise predictions for new physics signals and
known-physics backgrounds are needed. The project aims at the study of
precision prediction of new physics signals for SM effective field
theory (SMEFT) for FCC-ee/ILC and MuC together with their Standard
Model backgrounds using modern multi-purpose Monte Carlo event
generators, specifically in multi-Higgs and associated Higgs
production channels. The project allows to learn next-to-leading order
QCD and electroweak corrections, QED and electroweak lepton PDFs,
simulation of beam shapes like beam spread and event selection on
infrared-safe inclusive observables. Also, loop-induced processes will
be investigated.
Special Qualifications
Quantum Mechanics I+II, Particle Physics basics, ideally a quantum
field theory course
| Group | T |
|---|---|
| Project Category | B4. Theory of elementary particles |
| DESY Site | Hamburg |
