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Department of Particle and Nuclear Science

Field Subject Unit Content of subject
Fundamental Theories of Particle Physics Introduction to Field Theory I 2 Basic concepts in field theory which are indispensable for studying particle and nuclear physics.
Introduction to Field Theory II 2
Superstring Theory Ⅰ 2 Perturbative formulation of superstring theories in the covariant path integrals and introduction to nonperturbative effects.
Superstring Theory II 2 Nonperturbative effects in superstring theory and approaches aiming at constructing nonperturbative formulations.
Superstring Theory III 2 Perturbative formulation of superstring theories in the covariant path integrals and introduction to nonperturbative effects.
Superstring Theory IV 2 Nonperturbative effects in superstring theory and approaches aiming at constructing nonperturbative formulations.
Advanced Field Theory I 2 Numerical methods which enable nonperturbative studies of field theory.
Advanced Field Theory Ⅱ 2 Approaches to investigate non-perturbative aspects of (quantum) field theories including the topological classification of field configurations.
Seminar on Field Theory Ⅰ 2 Seminars to learn basic knowledge and skills of quantum field theories required in theoretical investigations of particle and nuclear physics through exercises and reading important literature.
Seminar on Field Theory Ⅱ 2
Particle Physics Phenomenology Theoretical Particle Physics I 2 Lectures on the Standard Model of elementary particle physics based on experimental results.
Theoretical Particle Physics II 2
Particle Phenomenology I 2 Conceptual and technical aspects of particle physics to compare experimental results with theoretical predictions.
Particle Phenomenology II 2 Survey of unsolved problems in the Standard Model and attempts beyond the Standard Model such as Supersymmetry.
Lattice Gauge Theory Lattice Field Theory I 2 Non-perturbative framework for quantum field theory on a discretized spacetime (the lattice spacetime) with special attention to quantum chromodynamics (QCD).
Lattice Field Theory II 2 Numerical and other approaches toward solving lattice field theories, especially lattice QCD.
Hadron and Nuclear Theory Introduction to Hadron and Nuclear Physics TheoryⅠ 2 Introduction to theories of hadron and nuclear structures and interactions.
Introduction to Hadron and Nuclear Physics Theory II 2
Theoretical Hadron Physics 2 Hadron physics theories based on QCD.
Theoretical Cosmophysics Cosmophysics I 2 Lectures on the structures and matter contents of the Universe and their origin from the standpoint of the evolutionary cosmology with focus on the interplay of cosmology and high energy physics.
Cosmophysics II 2 Lectures on the stellar structure and evolution as fundamental elements of the richly layered universe, including the relevant high energy astrophysics and astro-particle physics.
Seminar on Theoretical Cosmophysics I 2 Seminars to learn basic knowledge and skills required in theoretical investigations of cosmophysics through exercises and reading important literature.
Seminar on Theoretical Cosmophysics II 2
General Relativity 2 Lectures on various topics of general relativity such as singularity theorem, uniqueness of the black holes, higher dimensional black holes, gauge invariant perturbations.
Common Subjects for Experimental Particle and Nuclear Physics Introduction to Elementary Particle Physics 2 Introductory lecture on Elementary Particle Physics focusing on Experimental Aspects.
Introduction to Nuclear Physics 2 Introductory lecture on Nuclear Physics focusing on Experimental Aspects.
B Factory B Factory Ⅰ 2 Advanced lecture on B Factory.
B Factory Ⅱ 2
Exercise for B Factory Ⅰa 2 Advanced exersice for B Factory.
Exercise for B Factory Ⅰb 2
Exercise for B Factory Ⅱa 2
Exercise for B Factory Ⅱb 2
Hadron Collider Energy Frontier Hadron Collider Energy Frontier Ⅰ 2 Advanced lecture on Hadron Collider Energy Frontier.
Hadron Collider Energy Frontier Ⅱ 2
Exercise for Hadron Collider Energy Frontier Ⅰa 2 Advanced exersice for Hadron Collider Energy Frontier.
Exercise for Hadron Collider Energy Frontier Ⅰb 2
Exercise for Hadron Collider Energy Frontier Ⅱa 2
Exercise for Hadron Collider Energy Frontier Ⅱb 2
Lepton Collider Energy Frontier Lepton Collider Energy Frontier Ⅰ 2 Advanced lecture on Lepton Collider Energy Frontier.
Lepton Collider Energy Frontier Ⅱ 2
Exercise for Lepton Collider Energy Frontier Ⅰa 2 Advanced exersice for Lepton Collider Energy Frontier.
Exercise for Lepton Collider Energy Frontier Ⅰb 2
Exercise for Lepton Collider Energy Frontier Ⅱa 2
Exercise for Lepton Collider Energy Frontier Ⅱb 2
Neutrino Physics Neutrino Physics Ⅰ 2 Advanced lecture on Neutrino Physics.
Neutrino Physics Ⅱ 2
Exercise for Neutrino Physics Ⅰa 2 Advanced exersice for Neutrino Physics.
Exercise for Neutrino Physics Ⅰb 2
Exercise for Neutrino Physics Ⅱa 2
Exercise for Neutrino Physics Ⅱb 2
Kaon Rare Decay Kaon Rare Decay Ⅰ 2 Advanced lecture on Kaon Rare Decay.
Kaon Rare Decay Ⅱ 2
Exercise for Kaon Rare Decay Ⅰa 2 Advanced exersice for Kaon Rare Decay.
Exercise for Kaon Rare Decay Ⅰb 2
Exercise for Kaon Rare Decay Ⅱa 2
Exercise for Kaon Rare Decay Ⅱb 2
Muon Rare Process Muon Rare Process Ⅰ 2 Advanced lecture on Muon Rare Process.
Muon Rare Process Ⅱ 2
Exercise for Muon Rare Process Ⅰa 2 Advanced exersice for Muon Rare Process.
Exercise for Muon Rare Process Ⅰb 2
Exercise for Muon Rare Process Ⅱa 2
Exercise for Muon Rare Process Ⅱb 2
Muon Precision Measurement  Muon Precision Measurement Ⅰ 2 Advanced lecture on Muon Precision Measurement.
Muon Precision Measurement Ⅱ 2
Exercise for Muon Precision Measurement Ⅰa 2 Advanced exersice for Muon Precision Measurement.
Exercise for Muon Precision Measurement Ⅰb 2
Exercise for Muon Precision Measurement Ⅱa 2
Exercise for Muon Precision Measurement Ⅱb 2
Nuclear Physics Nuclear Physics Ⅰ 2 Advanced lecture on Nuclear Physics.
Nuclear Physics Ⅱ 2
Exercise for Nuclear Physics Ⅰa 2 Advanced exersice for Nuclear Physics.
Exercise for Nuclear Physics Ⅰb 2
Exercise for Nuclear Physics Ⅱa 2
Exercise for Nuclear Physics Ⅱb 2
Physics of Short-Lived Nuclei Physics of Short-Lived Nuclei Ⅰ 2 Advanced lecture on Physics of Short-Lived Nuclei.
Physics of Short-Lived Nuclei Ⅱ 2
Exercise for Physics of Short-Lived Nuclei Ⅰa 2 Advanced exersice for Physics of Short-Lived Nuclei.
Exercise for Physics of Short-Lived Nuclei Ⅰb 2
Exercise for Physics of Short-Lived Nuclei Ⅱa 2
Exercise for Physics of Short-Lived Nuclei Ⅱb 2
Neutron Fundamental Physics Neutron Fundamental Physics Ⅰ 2 Advanced lecture on Neutron Fundamental Physics.
Neutron Fundamental Physics Ⅱ 2
Exercise for Neutron Fundamental Physics Ⅰa 2 Advanced exersice for Neutron Fundamental Physics.
Exercise for Neutron Fundamental Physics Ⅰb 2
Exercise for Neutron Fundamental Physics Ⅱa 2
Exercise for Neutron Fundamental Physics Ⅱb 2
Experimental Cosmophysics Experimental Cosmophysics Ⅰ 2 Advanced lecture on Experimental Cosmophysics.
Experimental Cosmophysics Ⅱ 2
Exercise for Experimental Cosmophysics Ⅰa 2 Advanced exersice for Experimental Cosmophysics.
Exercise for Experimental Cosmophysics Ⅰb 2
Exercise for Experimental Cosmophysics Ⅱa 2
Exercise for Experimental Cosmophysics Ⅱb 2
Beam Dynamics Beam Dynamics Ⅰ 2 Advanced lecture on Beam Dynamics.
Beam Dynamics Ⅱ 2
Exercise for Beam Dynamics Ⅰa 2 Advanced exersice for Beam Dynamics.
Exercise for Beam Dynamics Ⅰb 2
Exercise for Beam Dynamics Ⅱa 2
Exercise for Beam Dynamics Ⅱb 2
Superconductivity and Cryogenic Engineering Superconductivity and Cryogenic Engineering Ⅰ 2 Advanced lecture on Superconductivity and Cryogenic Engineering.
Superconductivity and Cryogenic Engineering Ⅱ 2
Exercise for Superconductivity and Cryogenic Engineering Ⅰa 2 Advanced exersice for Superconductivity and Cryogenic Engineering.
Exercise for Superconductivity and Cryogenic Engineering Ⅰb 2
Exercise for Superconductivity and Cryogenic Engineering Ⅱa 2
Exercise for Superconductivity and Cryogenic Engineering Ⅱb 2
Particle Detection Technology Particle Detection Technology Ⅰ 2 Advanced lecture on Particle Detection Technology.
Particle Detection Technology Ⅱ 2
Exercise for Particle Detection Technology Ⅰa 2 Advanced exersice for Particle Detection Technology.
Exercise for Particle Detection Technology Ⅰb 2
Exercise for Particle Detection Technology Ⅱa 2
Exercise for Particle Detection Technology Ⅱb 2
Common Subjects for Theoretical Particle and Nuclear Physics Special Seminar for Theoretical Particle and Nuclear Physics Ⅰ 4 Studying basic methods in theoretical particle and nuclear physics through seminars and discussions based on standard textbooks and articles.
Special Seminar for Theoretical Particle and Nuclear Physics Ⅱ 4
Special Seminar for Theoretical Particle and Nuclear Physics Ⅲ 4
Special Study for Theoretical Particle and Nuclear Physics Ⅰ 4 Doing research of specific problems in the frontiers of theoretical particle and nuclear physics under the guidance by faculty members .
Special Study for Theoretical Particle and Nuclear Physics Ⅱ 4
Common Subjects for Experimental Particle and Nuclear Physics Exercise for Particle and Nuclear Physics Ⅰ 4 Experimental research for specific subject on elementary particle physics/nuclear physics under the guidance of thesis adviser.
Exercise for Particle and Nuclear Physics Ⅱ 4
Exercise for Particle and Nuclear Physics Ⅲ 4
Exercise for Particle and Nuclear Physics Ⅳ 4
Exercise for Particle and Nuclear Physics Ⅴ 4