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-2010
1. Gauge invariance, large transformations, Wilson loop, Yang-Mills theories, SU(2)
1. Gauge invariance, relation with GR, large transformations, Wilson loop.
1. Introduction: units, known particles, special relativity
1. Introduction: units,particles known, secial relativity
10. Gravitational waves: detections and future telescopes
18. violation CP et mélange de saveurs
19. les oscillations de neutrinos
2. Quantum theory, diagrams
2. Yang-Mills theories, SU(2), SU(3)
2010
2011
3. Hadrons and quarks
3. SU(3): Lagrangian, Feynman rules
3. The idea of renormalisation and its consequences
4. Cosmic Rays
4. Cosmic Rays - air shower arrays
4. SU(3): Lagrangian, Feynman rules
5. Cosmic Rays - Satellites
6. Neutrino astronomy
7. Dark matter: observational evidence and possible explanations
9) Electroweak interactions, flavour mixing
9. Gravitational waves: nature; origin, detection principles
AIP postdocs
AMS02, Fermi
Academic Calendar
Accélérateurs
Advanced quantum field theory 2011-2012
Advanced quantum physics 2011-2012
Applications de la physique nucléaire
Astro-particules
Astroparticles
Athina Meli
Baltus Grégory
Bhattacharya Atri
Bootstrap:Footer
Bootstrap:Subnav
Brief
CMB
CP violation
CR
Char Prasanta
Collisions en mécanique quantique
Coming seminars in our group
Computing
Computing-url
Contact
Cosmic rays, Auger
Cosmic rays, Auger, AMS02, Fermi, Integral
Courses
Cudell Jean-Rene
Cudell Jean-René
Cugnon Joseph
Current events
Dark Matter
Dechambre Alice
Details for the remote 2020 exams
Details for the remote 2021 exams
Details for the remote QFT exam - August 17
Details for the remote QFT exam - August 28
Details for the remote exam
Detection
Diffusion de Rutherford
Directions
Doctoral and Master theses
Doctoral lectures
Désintégrations à deux corps
Désintégrations à trois corps
Détails de l'examen en visioconférence
Détection des particules
Elements of the theory of continuous groups
Event intro
Exam 2021: theory questions and practical information
Exam 2021 GW: theory questions and practical information
Exam questions: theory
Exam questions (theory), GW
Exam questions (theory), Special relativity
Exam questions - IAP
Exam questions - IAP-2020-remote oral exam
Exam questions - IAP-2021-remote oral exam
Exam questions - particles and astrophysics
Exam questions on renormalisation
Examen: questions
Exercices 1
Exercices 2
Exercices 3
Exercices 4
Exercices 5
Exercices 6
Exercices 7
Exercices 8
Exercises JRC1
Exercises JRC2
Exercises QFT 1
Exercises QFT 2
Exercises QFT 3
FNRS Aspirant
FNRS Chargé de recherches
FNRS Chargé de recherches (3 years)
FNRS Chercheur qualifié (permanent)
FNRS IISN postdoctoral post
FNRS postdoctoral posts
Fays Maxime
Fusion nucléaire
GR
GWs in Minkowski spacetime
GWs in an expanding universe and in curved spacetimes
Gauge symmetries
General Relativity II (2020)
General Relativity I (2020)
Grand unification and SU(5)
Gravitational wave data analysis with Python
Gravitational waves
Gravitational waves: amplitude
Gravitational waves: luminosity, sources and detection principle
Gravitational waves with GR
Généralités
Hadrons and the quark model
Horaire d'examen
Horaires et locaux
Horaires et locaux de l'examen
Hutsemékers Damien
IFPA/6 May 2009
IFPA:About
IFPA:Current events
IFPA doctoral courses
IFPA internal seminars
IFPA seminars
IFPA staff
IFPA visitors
IISN
Igor Ivanov was awarded the Bogoliubov Prize 2006–2008 for young scientists
Index.php/Dark Matter
Inflation
Information for workshop of Friday 6th December
Instructions for the exam by videoconference
Instructions for the remote exam
Interaction des photons dans l'univers
Interactions faibles
Introduction
Introduction: particles and forces already known , Planck natural units, relativity
Introduction: particles and forces already known , Planck natural units, relativity, quantum mechanics
Introduction to astroparticles
Introduction to quantum field theory
Introduction to quantum field theory/Central Potential
Introduction to quantum field theory/Exercise ABJRC
Introduction to quantum field theory/Final Exam
Introduction to quantum field theory/H atom
Introduction to quantum field theory/Hydrogen Atom
Introduction to quantum field theory/Spin
Ivanov Igor
Job
Jobs at IFPA
Jointcolloquia
Journalclub
L'opacité de l'Univers
LHC: Le Grand Collisionneur de Hadrons
LIGO and Virgo
LIGO and Virgo results
La fission nucléaire
La symétrie de jauge
La symétrie de jauge, le groupe de Lorentz
Laletin Maxim
LateX letterhead
Le modèle des quarks
Les oscillations de neutrinos
Library Book Tracker
Liens externes
Lists of software
Local
Local-url
Mac addresses
Machine-learning algorithms for the analysis of gravitational-wave data
Main Page
Mancusi Davide
Mandal Subhayan
Matière noire
Matériel de cours PHYS0211-3
Matériel du cours MECA0202-2
Members
Modèles nucléaires
Multi-messenger astronomy
Méthode des ondes partielles
Networks
Neutrino astronomy: SuperKamiokande, IceCube, Pingu
Neutrino masses and mixings: solar neutrinos, neutrino oscillations, atmospheric neutrinos
New AMD PC Orders 2019
New GPU machine
Newtonian Noise subtraction for the Einstein Telescope
Notions de théorie des groupes continus
Noyaux et particules
Nuclei&Particles
Ondes gravitationnelles
Oueslati Rami
Pages 2011
Pages courantes
PandA
Particles and astroparticles 2019
Particles and astrophysics
Particles and gravitation
Past IFPA Teatime Meetings 2018-19
Past seminars in our group
Payez Alexandre
PdS2011
Pedoux Sophie
Pelgrims Vincent
Physique générale
Phénomènes de diffusion
Poisson Brackets and canonical quantization
Postdoctoral post
Postdoctoral posts
Problems QFT 1
Problems QFT 2
Problems QFT 3
Problems QFT 4
Problems QFT 5
Problems QFT 6
Production
Propriétés des noyaux
Public
Publications
QCD
QFT references
Quantum chromodynamics
Quantum field theory
Quantum mechanics, Maxwell equations
Quasars and lensing
Questions 2020 - examen en visioconférence
Questions d'examen
Questions d'examen-Astroparticules partim 2
Questions d'examen-théorie
Questions d'examen: partie théorique
Questions d'examen 2011-2
Questions d'examen pour l'examen virtuel
R1
R1GW
R1b
R1rel
R2
R2GW
R2REL
R2b
R3
R3GW
R3REL
R3b
R4
R4b
R5
R5b
R6
R6-PA
R6b
R7
R8
Rayonnements nucléaires
References
References for astroparticles 1
References for particles and astroparticles
References on baryogenesis
References on dark matter
Renormalisation
Research-url
Références
Références TQC
Références Virgo
Références renormalisation
Réunion de l'école doctorale PandA le 17 mai à l'ULg
SPAT0071 Exam 2019-2020
Schrödinger equation, Heisenberg and Schrödinger pictures
Scientific employment
Second quantization, microcausality
Seminars on topical issues
Special relativity
Staff-url
TFE
Test
Test Poll
The dark matter puzzle
The future of gravitational wave astronomy
Theoretical ideas beyond the standard model
Theory2021
Theory2021 GW
Théorie quantique des champs
Transparencies from a summer school
ULg postdocs
Unités naturelles
Useful commands
Useful links
Useful shell scripts
Users/ameli
Violation CP
Violation CP et mélange de saveurs
Virgo collaboration
Wallemacq Quentin
Welcome to IFPA
What is astroparticle physics?
Where is Physics beyond the Standard Model? Theory status after the LHC Run I
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YYYY-MM-25 prepare plan for next month
YYYY-MM-27 Test calendar

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