Европейская школа по Физике высоких энергий (ESHEP-2017)

Andrej Arbuzov
    Field Theory & EW Standard Model

1. Introduction and QFT.

  • CKM matrix

  • flavour changing neutral currents

  • effective Hamiltonian

    2. Construction of the SM

  • The Fermi model

  • Electroweak gauge interactions

  • The Higgs mechanism (brief)

  • Electroweak sector of the SM

  • Generation of fermion masses

  • Axial anomaly

3. Phenomenology of the SM

  • Axial anomaly

  • Input parameters

  • The muon decay and (g − 2)µ

  • Tests of the SM at LEP/SLC

  • Tests of the SM at LHC

  • Problems of the SM

Kirill Melnikov
    Theory of hard LHC collisions for pedestrians

1) Drell-Yan process at leading and next-to-leading orders in perturbative QCD

2) Transverse momentum distribution of a lepton pair

3) Physics of parton distribution functions 4) Basics of parton showers

Céline Boehm

  1. Introduction

  2. 1 + CMB and structure formation

  3. 2 + DM

Eilam Gross
   Practical Statistics for High Energy Physics


Dmitri Fursaev
     Special Lecture on Gravitational Waves

Pedro Ferreira da Silva
    Hunting for new Physics at the LHC

1.   How did we arrive to the LHC?
2.    Experimental signatures and challenges in the hunt for new physics

Guilherme Milhano

  • 1.  preview
    • what is heavy-ion physics
    • what it is for
    • a few basic concepts
  • thermalization, hydrodynamics and flow

  • 2.   hard probes
    • quarkonia suppression
    • high-pt hadrons and jets
  • wrap-up

Dmitry Kazakov
    Beyond the Standard Model

Sacha Davidson
    Neutrino Phy
Lecture I
Lecture II
Lecture III
M. Beneke
    Flavour physics and CP violation

  • Lecture I – Flavour physics and CP violation in the Standard Model; basic observables

  • Lecture II – Hadronic matrix elements; theoretical tools: effective Lagrangians; important phenomena and examples

  • Lecture III – Flavour physics beyond the SM: SMEFT, MFV, more Higgs doublets, MSSM, warped extra dimensions

S. Dawson
    Topics in Higgs Physics

1.) Higgs basics: Why new physics?
2.) Measuring the Higgs Width and Unitarity
3.) Fitting Higgs Couplings beyond the κ approach


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