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Showing 25 course outlines from 4499 matches

2626

PHYSICS 746

: Relativistic Quantum Mechanics and Field Theory
2025 Semester Two (1255)
Examines quantum field theory. Covers the relativistic generalisations of the Schrödinger equation and many-particle quantum mechanics, quantum electrodynamics is explored using Feynman diagram techniques. Extensions of scalar field theory to include path integrals, statistical field theory, broken symmetry, renormalisation and the renormalisation group.
Subject: Physics
Restriction: PHYSICS 706, 755
2627

PHYSICS 746

: Relativistic Quantum Mechanics and Field Theory
2024 Semester Two (1245)
Examines quantum field theory. Covers the relativistic generalisations of the Schrödinger equation and many-particle quantum mechanics, quantum electrodynamics is explored using Feynman diagram techniques. Extensions of scalar field theory to include path integrals, statistical field theory, broken symmetry, renormalisation and the renormalisation group.
Subject: Physics
Restriction: PHYSICS 706, 755
2628

PHYSICS 746

: Relativistic Quantum Mechanics and Field Theory
2022 Semester Two (1225)
Examines quantum field theory. Covers the relativistic generalisations of the Schrödinger equation and many-particle quantum mechanics, quantum electrodynamics is explored using Feynman diagram techniques. Extensions of scalar field theory to include path integrals, statistical field theory, broken symmetry, renormalisation and the renormalisation group.
Subject: Physics
Restriction: PHYSICS 706, 755
2629

PHYSICS 746

: Relativistic Quantum Mechanics and Field Theory
2021 Semester Two (1215)
Examines quantum field theory. Covers the relativistic generalisations of the Schrödinger equation and many-particle quantum mechanics, quantum electrodynamics is explored using Feynman diagram techniques. Extensions of scalar field theory to include path integrals, statistical field theory, broken symmetry, renormalisation and the renormalisation group.
Subject: Physics
Restriction: PHYSICS 706, 755
2630

PHYSICS 746

: Relativistic Quantum Mechanics and Field Theory
2020 Semester Two (1205)
Examines quantum field theory. Covers the relativistic generalisations of the Schrödinger equation and many-particle quantum mechanics, quantum electrodynamics is explored using Feynman diagram techniques. Extensions of scalar field theory to include path integrals, statistical field theory, broken symmetry, renormalisation and the renormalisation group.
Subject: Physics
Restriction: PHYSICS 706, 755
2631

PHYSICS 748

: General Relativity
2025 Semester Two (1255)
Discusses Einstein’s General Theory of Relativity with application to astrophysical problems, drawn from black hole physics, gravitational waves, cosmology, astrophysical lensing and solar system and terrestrial tests of the theory. The course includes the mathematical background needed to describe curved spacetimes in arbitrary coordinate systems and the covariant description of fundamental physical relationships.
Subject: Physics
No pre-requisites or restrictions
2632

PHYSICS 748

: General Relativity
2024 Semester Two (1245)
Discusses Einstein’s General Theory of Relativity with application to astrophysical problems, drawn from black hole physics, gravitational waves, cosmology, astrophysical lensing and solar system and terrestrial tests of the theory. The course includes the mathematical background needed to describe curved spacetimes in arbitrary coordinate systems and the covariant description of fundamental physical relationships.
Subject: Physics
No pre-requisites or restrictions
2633

PHYSICS 748

: General Relativity
2022 Semester Two (1225)
Discusses Einstein’s General Theory of Relativity with application to astrophysical problems, drawn from black hole physics, gravitational waves, cosmology, astrophysical lensing and solar system and terrestrial tests of the theory. The course includes the mathematical background needed to describe curved spacetimes in arbitrary coordinate systems and the covariant description of fundamental physical relationships.
Subject: Physics
No pre-requisites or restrictions
2634

PHYSICS 748

: General Relativity
2021 Semester Two (1215)
Discusses Einstein’s General Theory of Relativity with application to astrophysical problems, drawn from black hole physics, gravitational waves, cosmology, astrophysical lensing and solar system and terrestrial tests of the theory. The course includes the mathematical background needed to describe curved spacetimes in arbitrary coordinate systems and the covariant description of fundamental physical relationships.
Subject: Physics
No pre-requisites or restrictions
2635

PHYSICS 751

: Special Topic
2025 Semester Two (1255)
Subject: Physics
No pre-requisites or restrictions
2636

PHYSICS 751

: Special Topic
2025 Semester One (1253)
Subject: Physics
No pre-requisites or restrictions
2637

PHYSICS 751

: Special Topic
2022 Semester Two (1225)
Subject: Physics
No pre-requisites or restrictions
2638

PHYSICS 752

: Photonics
2025 Semester Two (1255)
Advanced topics in photonics including optical detection, semiconductor and modelocked lasers, the propagation of light in optical fibres, and the physics and applications of nonlinear optics.
Subject: Physics
Restriction: PHYSICS 726, 727
2639

PHYSICS 752

: Photonics
2024 Semester Two (1245)
Advanced topics in photonics including optical detection, semiconductor and modelocked lasers, the propagation of light in optical fibres, and the physics and applications of nonlinear optics.
Subject: Physics
Restriction: PHYSICS 726, 727
2640

PHYSICS 752

: Photonics
2023 Semester Two (1235)
Advanced topics in photonics including optical detection, semiconductor and modelocked lasers, the propagation of light in optical fibres, and the physics and applications of nonlinear optics.
Subject: Physics
Restriction: PHYSICS 726, 727
2641

PHYSICS 752

: Photonics
2022 Semester Two (1225)
Advanced topics in photonics including optical detection, semiconductor and modelocked lasers, the propagation of light in optical fibres, and the physics and applications of nonlinear optics.
Subject: Physics
Restriction: PHYSICS 726, 727
2642

PHYSICS 752

: Photonics
2021 Semester Two (1215)
Advanced topics in photonics including optical detection, semiconductor and modelocked lasers, the propagation of light in optical fibres, and the physics and applications of nonlinear optics.
Subject: Physics
Restriction: PHYSICS 726, 727
2643

PHYSICS 753

: The Dynamic Universe
2025 Semester Two (1255)
Covers topics in modern astronomy and astrophysics relating to the evolution and dynamics of key astrophysical systems. Topics will be drawn from: stellar structure and stellar evolution; the formation of planets and the evolution of planetary systems; stellar and galactic dynamics; the large scale dynamical behaviour of the expanding universe.
Subject: Physics
No pre-requisites or restrictions
2644

PHYSICS 753

: The Dynamic Universe
2024 Semester Two (1245)
Covers topics in modern astronomy and astrophysics relating to the evolution and dynamics of key astrophysical systems. Topics will be drawn from: stellar structure and stellar evolution; the formation of planets and the evolution of planetary systems; stellar and galactic dynamics; the large scale dynamical behaviour of the expanding universe.
Subject: Physics
No pre-requisites or restrictions
2645

PHYSICS 753

: The Dynamic Universe
2023 Semester Two (1235)
Covers topics in modern astronomy and astrophysics relating to the evolution and dynamics of key astrophysical systems. Topics will be drawn from: stellar structure and stellar evolution; the formation of planets and the evolution of planetary systems; stellar and galactic dynamics; the large scale dynamical behaviour of the expanding universe.
Subject: Physics
No pre-requisites or restrictions
2646

PHYSICS 753

: The Dynamic Universe
2022 Semester Two (1225)
Covers topics in modern astronomy and astrophysics relating to the evolution and dynamics of key astrophysical systems. Topics will be drawn from: stellar structure and stellar evolution; the formation of planets and the evolution of planetary systems; stellar and galactic dynamics; the large scale dynamical behaviour of the expanding universe.
Subject: Physics
No pre-requisites or restrictions
2647

PHYSICS 753

: The Dynamic Universe
2021 Semester Two (1215)
Covers topics in modern astronomy and astrophysics relating to the evolution and dynamics of key astrophysical systems. Topics will be drawn from: stellar structure and stellar evolution; the formation of planets and the evolution of planetary systems; stellar and galactic dynamics; the large scale dynamical behaviour of the expanding universe.
Subject: Physics
No pre-requisites or restrictions
2648

PHYSICS 753

: The Dynamic Universe
2020 Semester Two (1205)
Covers topics in modern astronomy and astrophysics relating to the evolution and dynamics of key astrophysical systems. Topics will be drawn from: stellar structure and stellar evolution; the formation of planets and the evolution of planetary systems; stellar and galactic dynamics; the large scale dynamical behaviour of the expanding universe.
Subject: Physics
No pre-requisites or restrictions
2649

PHYSICS 754

: Condensed Matter Physics
2025 Semester Two (1255)
Covers topics and methods that are important for current condensed matter research. Topics include ferroelectricity, soft condensed matter, experimental materials physics, electronic structure theory, techniques for condensed matter simulation, and renormalisation group theory.
Subject: Physics
No pre-requisites or restrictions
2650

PHYSICS 754

: Condensed Matter Physics
2023 Semester Two (1235)
Covers topics and methods that are important for current condensed matter research. Topics include ferroelectricity, soft condensed matter, experimental materials physics, electronic structure theory, techniques for condensed matter simulation, and renormalisation group theory.
Subject: Physics
No pre-requisites or restrictions