Lecture 3: Asimov Significance
Look Elsewhere Effect
1D LEE the non-intuitive thumb rule (upcrossings, trial #~Z)
2D LEE (Euler Characteristic)
Cecilia E. Gerber Experimental Methods in
Hadron Colliders
Lecture 1: Hadronic Collisions: The Basics
– The Large Hadron Collider
– The Anatomy of Hadronic Collisions
– Particle Detectors & Detector Technologies
Lecture 2: Experimental
Methods
– Object Identification
– The Particle Flow Event Reconstruction
– Jet Substructure Techniques
– Physics of Hadron Collisions: Measuring Production Rates & Masses
Lecture 3: Down the Standard
Model Ladder
– QCD, W/Z, Top, Higgs
Lecture 4: Beyond the
Standard Model Searches
– Motivation and some examples
Outlook: HL-LHC and beyond
Gabriela González
Gravitational Wave Astronomy
Daniel de Florian QCD
Lecture 1
Color “explains” hadron spectrum : charge of QCD
QCD Lagrangian derived from gauge principle with non-abelian
group SU(3) : Feynman rules for perturbative calculations
There are UV divergences dealt by renormalization : as a
result running coupling constant
Two faces of QCD : asymptotically free and consistent with
confinement
There are also IR divergences that cancel when adding real and
virtual contributions
Jet algorithm is relevant to define IR safe observables
QCD at work in e+e- : test the nature of SU(3) OK!
Lecture 2
Deep Inelastic Scattering
Parton Model
Scaling Violations and Evolution
Factorization
Parton Distribution Functions
Lecture 3
QCD at Colliders
Why higher orders?
How to do NLO
Automated tools at NLO
Lecture 4
NNLO
Higgs at NNLO and beyond
Resummation : when fixed order fails
Parton Showers
Matching Parton showers and NLO
Marcela Carena Lectures on Higgs Boson
Physics
Lecture 1
Lecture 2
Malena Tejeda-Yeomans Heavy Ion Physics
Lecture 1
Lecture 2
1. The Quark-Gluon Plasma
2. QCD phase transitions
3. Heavy ion collision signatures and observables
4. Summary and open questions
Antonio Pich
Flavour Physics & CP Violation
Lecture 1
Lecture 2
Lecture 3
Carlos E.M. Wagner
Lectures on Beyond the Standard Model Physics
Lecture 1
Lecture 2
Lecture 3
Rogerio Rosenfeld
Cosmology and Particle Physics
Lecture I: The average Universe
Lecture II: Origins
1 – Origin of light elements
2 – Origin of baryons
3 – Origin of dark matter
4 – Origin of atoms and the CMB
5 – Origin of inhomogeneities
Lecture III: The perturbed Universe
1 – Growth of perturbations
2 – Perturbations in a newtonian universe
3 – The power spectrum
4 – Baryon acoustic oscillations
5 – The six-parameter universe
6 – Observations: the case of DES
Pilar Hernandez
Neutrino Physics
Lecture I Introduction: Neutrinos in the Standard Model
Neutrino masses and mixing : Majorana versus Dirac
Neutrino oscillations in vacuum and in matter
Experimental evidence for neutrino masses & mixings
Lecture II
The standard 3n scenario and its unknowns: status and prospects
Neutrinos and beyond the Standard Model physics
