Jul 24 – 29, 2022
Asia/Seoul timezone

Scientific Program

기초입자물리학: 정동원 (연세대)

  1. Quantum Fields and Particles
  2. Gauge Principle
  3. QED
  4. Yang-Mills Theory : QCD and Weak Interaction
  5. Standard Model : Higgs mechanism, gauge bosons, quarks and leptons

References :
1. Textbooks
Halzen and Martin, “Quarks and Leptons”
Griffiths, “Introduction t Elementary Particles”
이강영, “ LHC, 현대물리학의 최전선”
2. Lecture notes and other materials
Prof. D. Tong :
Prof. H. Osborn :

기초우주론: 배규정 (경북대)

  1. 상대성이론 다시보기
  2. 로버트슨-워커 메트릭
  3. 표준 우주론
  4. 암흑물질 생성 모형
  5. 암흑물질과 입자물리학

고급우주론: 정동희 (Pen State U.)

  1. Inflation
  2. linear perturbation theory
  3. generation of seed perturbation during inflation
  4. growth of linear perturbation
  5. CMB temperature and polarization anisotropies

고급입자물리학: 임상희 (IBS-CTPU)
Relaxion physics

  1. The weak scale hierarchy problem : conventional solutions vs relaxion solution
  2. Relaxion model building I : cosmological evolution, QCD relaxion, non-QCD relaxion
  3. Relaxion model building II : clockwork mechanism
  4. Phenomenology of relaxion : Higgs-relaxion mixing

Black Hole: Pablo Soler (IBS-CTPU)   
Introduction to Black Holes and their Quantum aspects

  1. Quantum fields on curved spacetimes
  2. Classical Schwarzschild Black Holes
  3. Quantum fields on Schwarzschild BHs
  4. Charged (Reissner-Nordstrom) BHs

Useful references will be:

Birrell & Davies: "Quantum Fields in Curved Space”
Mukhanov & Winitzki: "Introduction to Quantum Effects in Gravity”