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The guideline to study and do research on hadron physics

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HEP-books

The guideline to study and do research on high energy physics

A. Basic Physics

The first step is to study the basic physics.

Fundamental Physics

  1. Fundamentals of Physics (Halliday & Resnick)

Mathematical methods

  1. Calculus (Purcell)
  2. Mathematical Methods in The Physical Science (Boas)
  3. Mathematical Methods for Physicist (Arfken, Weber & Harris)

Classical Mechanics

  1. Classical Dynamics of particle and system (Thornton & Marion)
  2. Classical Mechanics (Goldstein)
  3. Classical Mechanics: Systems of Particles and Hamiltonian Dynamics (Greiner)

Vibration & Wave

  1. The Physics of Vibrations and Waves (Pain)
  2. Optics (Hecht)

Classical Electrodynamics

  1. Introduction to Electrodynamics (Griffith)
  2. Classical Electrodynamics (Jackson)
  3. Classical Electrodynamics (Greiner)

Thermodynamics & Statistical Mechanics

  1. Thermodynamics and Statistical Mechanics (Greiner)
  2. Fundamentals of Statistical and Thermal Physics (Reif)

Special Relativity

  1. Classical Mechanics: Point Particles and Relativity (Greiner)

Modern Physics

  1. Modern Physics for scientists and engineers (Thornton)
  2. Modern Physics (Tipler)
  3. Modern Physics (Krane)

Quantum Mechanics

  1. Introduction to Quantum mechanics (Griffith)
  2. Quantum Physics (Gasiorowicz)
  3. Modern Quantum Mechanics (Sakurai)
  4. Quantum Mechanics: Introduction (Greiner)
  5. Quantum Mechanics: Special Chapters (Greiner)

B. Advanced Physics

The next step is to study more advanced topic.

Particle Physics

  1. Introduction to Elementary Particle Physics (Griffith)
  2. Introduction to Nuclear and Particle Physics (Das & Ferbel)
  3. Quark and Lepton (Halzen & Martin)
  4. Introduction to High Energy Physics (Perkins)
  5. Modern elementary particle physics (Kane)
  6. An Introduction to Particle Physics and the Standard Model (Mann)
  7. Problems and Solutions in Nuclear and Particle Physics (Petrera)
  8. Collider Physics within the Standard Model (Altarelli & Wells)

Experimental Particle Physics

  1. Experimental foundations of particle physics (Cahn)
  2. Particle and Nuclear Physics at J-PARC (Takahiro, Toshiyuki & Yoshimura)

Nuclear Physics

  1. Nuclear Models (Greiner)

Hadron Physics

  1. Quarks, Baryons, and Chiral Symmetry (Hosaka & Toki)
  2. The Quark Structure of Hadrons (Amsler)
  3. An Introduction to the Confinement Problem (Greensite)
  4. A Primer for Chiral Perturbation Theory (Scherer & Schindler)
  5. The Physics of the Quark-Gluon Plasma (Sarkar, Satz, & Sinha)
  6. Quantum Chromodynamics on the Lattice (Gattringer & Lang)
  7. Nuclear Lattice Effective Field Theory (Lähde & Meißner)
  8. Basics of Thermal Field Theory (Laine & Vuorinen)
  9. AdS/CFT Duality User Guide (Natsuume)
  10. Heavy Quark Physics (Blaschke & Ivanov)
  11. Chiral Soliton Models for Baryons (Weigel)
  12. Topics in Strangeness Nuclear Physics (Bydžovský, Mareš & Gal)

Symmetry

  1. Lie Groups for Particle Phyiscs (Georgi)
  2. Quantum Mechanics - Symmetry (Greiner)
  3. Lie Groups and Lie Algebra for Physicist (Das & Okubo)
  4. Symmetries and Group Theory in Particle Physics (Costa & Fogli)
  5. Symmetry Breaking (Strocchi)

Angular Momentum

  1. Angular Momentum in Quantum Mechanics (Edmonds)
  2. Angular Momentum Techniques in Quantum Mechanics (Devanathan)

Relativistic Quantum Mechanics

  1. Relativistic Quantum Mechanics (Greiner)

Quantum Field Theory

  1. An Introduction to Quantum Field Theory (Peskin & Schroeder)
  2. Quantum Field Theory and the Standard Model (Schwartz)
  3. Lecture on Quantum Field Theory (Das)
  4. Field Theory: A Path Integral Approach (Das)
  5. Quantum Field Theory (Srednicki)
  6. Field Quantization (Greiner)

Gauge Theory

  1. Quantum Chromodynamics (Greiner)
  2. Quantum Electrodynamics (Greiner)
  3. Gauge Theory of Weak Interaction (Greiner)

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The guideline to study and do research on hadron physics