Physics Books Basic Physics Theoretical Physics Modern Physics Condensed Matter Atomic Physics Particle Physics Nuclear Physics Quantum Physics Radiation Physics Quantum Field Theory Quantum Mechanics Electricity&Magnetism ElectroDynamics Solid State Physics Superconductivity Mathematical Physics Optics Plasma Physics Statistical Physics Thermodynamics Fluid Mechanics Mechanics Stastical Mechanics Continuum Mechanics Classical Mechanics Dynamics Relativity Vibration&Waves Conservation Laws Computational Physics Medical Physics Astronomy BioPhysics Chemical Physics GeoPhysics Psychophysics Kinetic Theory
Particle Physics Experimental Insight
This note covers the following topics: Units and dimensions, Antiparticles, Dirac’s picture of vacuum, Feynman diagrams, Exchange of a massive boson, Leptons, quarks and hadrons, Experimental methods, QCD, jets and gluons, Space-time symmetries, Hadron quantum numbers, Quark states and colours, Weak Interactions: W and Z bosons, Electroweak unification, Charge conjugation and parity.
Author(s): Lund University
232 Pages 
Lecture on Particle Physics uou
The contents of the lecture notes are: Basics of elementary particle physics, Fundamental interactions/forces, Conservation laws , Symmetries, Building blocks of matter, Conclusion with the Fundamental Model of particles.
Author(s): Dr. B. C. Chanyal, Department of Physics, G. B. Pant University of Agriculture and Technology
50 Pages
Lectures on Particle Physics Enrico Bertuzzo
Topics covered in this lecture notes are : Quantum Field Theory, Strong interactions: Quantum Chromodynamics, Electroweak interactions: The Standard Model of Particle Physics, Beyond the renormalizable Standard Model, Drawbacks of the Standard Model.
Author(s): Instituto de Física da Universidade de São Paulo, Brasil
188 Pages
Modern Particle Physics Online Resources
This note covers the following topics: The Dirac Equation, Interaction by Particle Exchange, Electron Positron Annihilation, Electron Proton Elastic Scattering, Deep Inelastic Scattering, Symmetries and the Quark Model, Quantum Chromodynamics, V-A and the Weak Interaction, Leptonic Weak Interactions, Neutrino Oscillations, Weak Interactions of Quarks and CP Violation, The W and Z Boson, Tests of the Standard Model.
Author(s): Mark Thomson
NA Pages
The Standard Model of Particle Physics
This note covers the following topics: Concepts of Quantum Field Theory and the Standard Model, Construction Of The Standard Model, One Generation of Leptons and Quarks, Fermion Masses, Three Generations of Quarks and Lepton, The Structure of the Strong Interactions, Phenomenology of the Strong Interactions, Topology of Gauge Fields, The Strong CP-Problem.
Author(s): Uwe-Jens Wiese
271 Pages
Modern Experimental Particle Physics
This note addresses current research topics in particle and astroparticle physics, and focuses on aspects of current and future experiments in the area. It consists of 2 major parts: Current Front-line Research, and Experiments and Methods, representing 7.5 ECTS credits together.
Author(s): Lund University
NA Pages
Introduction to Particle Physics Lecture Notes
This note covers the following topics: standard model qualitatively, review of QM and relativity, symmetries, Feynman toy model, quantum electrodynamics, quantum, electroweak interaction, the standard model, if time selected applications in new physics.
Author(s): Professor Matthew Herndon
NA Pages
Introduction to Particle Physics by Axel Maas
This note explains the following topics: Elementary particles, Fermions and bosons, Particles and anti-particles, Scattering experiments, A role model: Quantum electrodynamics, Invariances and quantum numbers, Strong interactions, Weak interactions, Beyond the standard model.
Author(s): Axel Maas
223 Pages
Particle Physics by Eugene Kennedy
This book includes theoretical aspects, with chapters outlining the generation model and a charged Higgs boson model as alternative scenarios to the Standard Model. An introduction is provided to postulated axion photon interactions and associated photon dispersion in magnetized media. The book concludes with a chapter tackling potential radiation hazards associated with extremely weakly interacting neutrinos if produced in copious amounts with future high-energy muon-collider facilities.
Author(s): Eugene Kennedy
NA Pages