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PHYS-314: Quantum physics II
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Lectures in this course (79)
Wigner Theorem; Translation Symmetry
Explores the Wigner theorem, translation symmetry, eigenstates, and wave functions in quantum physics.
Tensor Product of Representations
Covers the tensor product of representations, combining group representations to form new ones.
Continuous Symmetries; Parity Symmetry
Explores symmetry operations in quantum physics, including rotations and translations.
Tensor Product of Representations
Covers constructing tensor products of representations, finding correct bases for matrices, and the importance of symmetry in physics problems.
Time Reversal Symmetry
Explores time reversal symmetry, invariance under parity, eigenstates, and spin in quantum physics.
Wigner's Theorem and Temporal Inversion Operator
Explores Wigner's Theorem and temporal inversion operator in quantum mechanics.
Vector Transformation and Tense
Explores the transformation of vectors and tensors, including rotations and representations in quantum physics.
Lie Group: Structure and Transformations
Explores Lie groups, their structure, and applications in transformations.
Lie Groups: SU(2) and SO(3)
Explores Lie groups SU(2) and SO(3), emphasizing their mathematical properties and significance in physics.
Spherical Tensors and Wigner-Eckart Theorem
Covers the transformation of vectors and tensors in quantum physics.
Elements of Lie Groups and Algebras
Explores the transformation of vectors and tensors in quantum physics, emphasizing Lie groups and algebras.
Rotations in Quantum Mechanics
Introduces rotations in quantum mechanics, covering the Rodriguez formula and active transformations.
Irreducible Representations of Rotations Group
Explores irreducible representations of the rotations group and their mathematical properties.
General Transformations
Covers rotations and general transformations in various dimensions with mathematical formulas and applications.
Identical Particles: Fermions
Explores quantum physics concepts related to identical fermions and bosons.
Vector Operators and Wigner-Eckart Theorem
Covers vector operators and the Wigner-Eckart theorem in quantum mechanics.
Identical Particles Systems: Bosons
Covers systems with identical particles, focusing on bosons and their properties.
Wigner Eckart Theorem
Explores the Wigner-Eckart theorem, tensor spherical harmonics, and vector spherical harmonics, focusing on their transformation properties and applications.
Permutation Symmetry: Bosons and Fermions
Explores the symmetry of permutations in bosons and fermions based on spin values.
Variational Principle: Quantum Physics II
Covers the variational principle in quantum physics for approximating energy levels.
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