The guideline to study and do research on high energy physics
The first step is to study the basic physics.
- Fundamentals of Physics (Halliday & Resnick)
- Calculus (Purcell)
- Mathematical Methods in The Physical Science (Boas)
- Mathematical Methods for Physicist (Arfken, Weber & Harris)
- Classical Dynamics of particle and system (Thornton & Marion)
- Classical Mechanics (Goldstein)
- Classical Mechanics: Systems of Particles and Hamiltonian Dynamics (Greiner)
- The Physics of Vibrations and Waves (Pain)
- Optics (Hecht)
- Introduction to Electrodynamics (Griffith)
- Classical Electrodynamics (Jackson)
- Classical Electrodynamics (Greiner)
- Thermodynamics and Statistical Mechanics (Greiner)
- Fundamentals of Statistical and Thermal Physics (Reif)
- Classical Mechanics: Point Particles and Relativity (Greiner)
- Modern Physics for scientists and engineers (Thornton)
- Modern Physics (Tipler)
- Modern Physics (Krane)
- Introduction to Quantum mechanics (Griffith)
- Quantum Physics (Gasiorowicz)
- Modern Quantum Mechanics (Sakurai)
- Quantum Mechanics: Introduction (Greiner)
- Quantum Mechanics: Special Chapters (Greiner)
The next step is to study more advanced topic.
- Introduction to Elementary Particle Physics (Griffith)
- Introduction to Nuclear and Particle Physics (Das & Ferbel)
- Quark and Lepton (Halzen & Martin)
- Introduction to High Energy Physics (Perkins)
- Modern elementary particle physics (Kane)
- An Introduction to Particle Physics and the Standard Model (Mann)
- Problems and Solutions in Nuclear and Particle Physics (Petrera)
- Collider Physics within the Standard Model (Altarelli & Wells)
- Experimental foundations of particle physics (Cahn)
- Particle and Nuclear Physics at J-PARC (Takahiro, Toshiyuki & Yoshimura)
- Nuclear Models (Greiner)
- Quarks, Baryons, and Chiral Symmetry (Hosaka & Toki)
- The Quark Structure of Hadrons (Amsler)
- An Introduction to the Confinement Problem (Greensite)
- A Primer for Chiral Perturbation Theory (Scherer & Schindler)
- The Physics of the Quark-Gluon Plasma (Sarkar, Satz, & Sinha)
- Quantum Chromodynamics on the Lattice (Gattringer & Lang)
- Nuclear Lattice Effective Field Theory (Lähde & Meißner)
- Basics of Thermal Field Theory (Laine & Vuorinen)
- AdS/CFT Duality User Guide (Natsuume)
- Heavy Quark Physics (Blaschke & Ivanov)
- Chiral Soliton Models for Baryons (Weigel)
- Topics in Strangeness Nuclear Physics (Bydžovský, Mareš & Gal)
- Lie Groups for Particle Phyiscs (Georgi)
- Quantum Mechanics - Symmetry (Greiner)
- Lie Groups and Lie Algebra for Physicist (Das & Okubo)
- Symmetries and Group Theory in Particle Physics (Costa & Fogli)
- Symmetry Breaking (Strocchi)
- Angular Momentum in Quantum Mechanics (Edmonds)
- Angular Momentum Techniques in Quantum Mechanics (Devanathan)
- Relativistic Quantum Mechanics (Greiner)
- An Introduction to Quantum Field Theory (Peskin & Schroeder)
- Quantum Field Theory and the Standard Model (Schwartz)
- Lecture on Quantum Field Theory (Das)
- Field Theory: A Path Integral Approach (Das)
- Quantum Field Theory (Srednicki)
- Field Quantization (Greiner)
- Quantum Chromodynamics (Greiner)
- Quantum Electrodynamics (Greiner)
- Gauge Theory of Weak Interaction (Greiner)