Group theory and intrinsic spin; specifically, s=1/2

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Group theory and intrinsic spin; specifically, s=1/2 PHY 745 Group Theory 11-11:50 AM MWF Olin 102 Plan for Lecture 26: Group theory and intrinsic spin; specifically, s=1/2 Dirac equation for hydrogen atom Spin-orbit interaction* Double groups* *Chapter 14 in DDJ 3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

Dirac equation for describing the quantum mechanics of an electron Four-component Dirac Hamiltonian for an electron in a spherically symmetric scalar potential V(r): 3/27/2017 PHY 745 Spring 2017 -- Lecture 26

Other useful four-component matrices: The following commutation relations can be shown: In principle, it is possible to have eigenstates that are simultaneously diagonal in H, K, J2, and Jz, but K and J2 are closely related. 3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

Eigenfunctions of Dirac Hamiltonian for spherical potential Relationships between eigenvalues 3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

3/27/2017 PHY 745 Spring 2017 -- Lecture 26

Evaluating the coefficients of the polynomial of order N Za n=5 k=1 n=1 3/27/2017 PHY 745 Spring 2017 -- Lecture 26

Note that for a given principal quantum number n, the energies for +k and –k are degenerate. For n=1, k=-1: 3/27/2017 PHY 745 Spring 2017 -- Lecture 26

Paul Strange, “Relativistic Quantum Mechanics”, Cambridge U Paul Strange, “Relativistic Quantum Mechanics”, Cambridge U. Press (1998), pg. 241 3/27/2017 PHY 745 Spring 2017 -- Lecture 26

Summary of results for solution of Dirac equation for H-like ion 3/27/2017 PHY 745 Spring 2017 -- Lecture 26