Field Theory and the Electroweak
Standard Model (Теория поля и Стандартная модель электрослабых
взаимодействий)
Fields and Particles
Symmetry Breaking and the Higgs mechanism
Electroweak Standard Model
Ingrid-Maria Gregor (DESY)
Instrumentation and Detectors (Измерительные приборы и
детекторы)
I. Detectors for Particle Physics
II. Interaction with Matter
III. Calorimeters
IV. Tracking Detectors • Gas detectors
• Semiconductor trackers
V. Building an Experiment
VI. Challenges for Future Experiments
VII. And what can go wrong ....
Youngjoon Kwon (Yonsei University)
Practical Statistics for Particle Physicists Basic elements
• some vocabulary
• Probability axioms
• some probability distributions
Two approaches: Frequentist vs. Bayesian
Hypothesis testing
Parameter estimation
Other subjects — "nuisance", "spurious", "look elsewhere"
Takaaki Kajita (Tokyo University)
Super Kamiokande
Yifang Wang (IHEP)
Particle Physics in China
Masanori Yamauchi (KEK)
Particle Physics in Japan
Fabiola Gianotti (CERN)
Particle Physics at CERN
Fabio Maltoni (Universite Catholique de Louvain (BE))
QCD (Квантовая хромодинамика)
1. Intro and QCD fundamentals • QCD is a good theory for
strong interactions: facts • From QED to QCD: the
importance of color • Renormalization group and
asymptotic freedom • Infrared safety
2. QCD in the final state • Infrared safety • Towards realistic final
states • Jets
3. From accurate QCD to useful QCD • DIS: from the parton model to
pQCD • Q2 Evolution and
PDF’s • pp collisions : a glimpse
Nu Xu (LBNL)
Heavy- Ion Physics (Физика тяжелых ионов) I. Introductions
II. Status of the Relativistic Heavy Ion Collider • Accelerator complex and
Detectors • Definitions • Future planes
III. Selected topics in High-energy NuclearCollisions • Parton Energy Loss • Collectivity • Criticality • Chirality • Heavy quark production
IV. Summary
Ahmed Ali (DESY)
Flavour Physics and CP Violation
(Физика ароматов и нарушение СР-инваримнтности) • Standard Model, Quark flavour mixing &
the CKM Matrix • Present status of the VCKM
matrix elements |Vud|, |Vus|, |Vcd|,
|Vcs| • Determination of |Vcb| and |Vub|
from semileptonic B-decays • Status of the third row of VCKM:
|Vtd|, |Vts|, |Vtb| • CP violation in the charged and neutral
hadron decays - Formalism • CP violation in the Kaon sector • D0 -
D0
mixing and CP violation in the Charm sector • CP Violation in the B-meson sector &
determination of the weak phases α, β, γ, φs • Rare B-decays and their impact on the
CKM phenomenology • Summary
Simon Eydelman (Budker Institute of Nuclear Physics (RU))
Physics with e+e−
at Low Energy 1. Physics of light quarks (u, d, s) • e+e−
colliders • R measurement • Light vector mesons and
exclusive processes • Muon anomalous magnetic
moment • Conclusions
2. Physics of τ lepton and c, b quarks • τ lepton • Charmonium • Bottomonium • Conclusions
Neutrino Physics (Физика нейтрино)
1. Introduction
2. Discovery of Neutrino mass and mixing
3. Atmospheric Neutrino
4. Solar Neutrino
5. Accelerator Neutrino
6. Reactor Neutrino
7. Neutrino-less double beta decay
8. Cosmic Neutrino
9. Absolute Neutrino Mass
10. Sterile Neutrinos
11. Outlook
Sudhir Vempati (Indian Institute of Science, Bangalore)
Physics Beyond the Standard Model (За пределами
стандартной модели) 1) Why BSM Physics ?
2) Hierarchy Problem
3) Supersymmetry as a solution
4) The structure of MSSM
5) Soft terms in Different Mediation
Schemes
1) Recap of Superfields and SUSY Lagrangian
2) SUSY QED example
3) MSSM recap
4) Electroweak symmetry breaking
5) Mass Spectrum of SUSY particles
6) Higgs spectrum
7) 1-loop corrections to the Higgs mass
1) Three paths to supersymmetry
2) LHC Results
3) Flavour Constraints
4) Dark Matter Constraints
5) Escaping LHC and other search strategies
6) Famous SUSY breaking models and their status
7) A small introduction to Extra Dimensions
