Physics (PHYS) 1 PHYS 841 Experimental Physics I PHYSICS (PHYS) Crosslisted with: PHYS 441 Prerequisites: PHYS 213, 223 and 231 PHYS 801 Computational Physics Notes: Lab fee required. Crosslisted with: PHYS 401 Description: Methods and techniques of modern experimental physics. Prerequisites: A grade of P, C or better in PHYS 311. Credit Hours: 3 Description: Re-formulation of physics problems for solution on a Max credits per semester: 3 computer, control of errors in numerical work, and programming. Max credits per degree: 3 Credit Hours: 3 Grading Option: Grade Pass/No Pass Option Max credits per semester: 3 Prerequisite for: PHYS 442, PHYS 842 Max credits per degree: 3 PHYS 842 Experimental Physics II Grading Option: Grade Pass/No Pass Option Crosslisted with: PHYS 442 PHYS 811 Methods of Theoretical Physics I Prerequisites: PHYS 441/841 or permission. Description: Fundamentals of applications of linear algebra, tensor Notes: Lab fee required. analysis, complex analysis, ordinary differential equations and special Description: Continuation of PHYS 441/841. functions to problems in theoretical physics with emphasis on special Credit Hours: 3 relativity, electrodynamics and nonrelativistic quantum mechanics. Max credits per semester: 3 Credit Hours: 3 Max credits per degree: 3 Max credits per semester: 3 Grading Option: Grade Pass/No Pass Option Max credits per degree: 3 Prerequisite for: PHYS 443, PHYS 843 Grading Option: Grade Pass/No Pass Option PHYS 843 Experimental Physics III PHYS 812 Methods of Theoretical Physics II Crosslisted with: PHYS 443 Description: Green's functions and integral transforms to solve boundary Prerequisites: PHYS 442/842 or permission. value problems in various physical systems. Description: Continuation of PHYS 442/842. Credit Hours: 3 Credit Hours: 1-3 Max credits per semester: 3 Min credits per semester: 1 Max credits per degree: 3 Max credits per semester: 3 Grading Option: Grade Pass/No Pass Option Max credits per degree: 3 PHYS 813 Methods of Theoretical Physics III Grading Option: Grade Pass/No Pass Option Description: Application of discrete and continuous groups to various PHYS 851 Electromagnetic Theory problems in solid state physics, atomic physics, high-energy physics and Crosslisted with: PHYS 451 classical mechanics. Prerequisites: PHYS 213; MATH 221/821. Credit Hours: 3 Description: Theory of electric and magnetic fields and their interaction Max credits per semester: 3 with charges and currents, Maxwell's equations, electric and magnetic Max credits per degree: 3 properties of matter. Grading Option: Grade Pass/No Pass Option Credit Hours: 3 PHYS 822 Introduction to Physics and Chemistry of Solids Max credits per semester: 3 Crosslisted with: PHYS 422, ECEN 422, ECEN 822 Max credits per degree: 3 Prerequisites: PHYS 213 or CHEM 481/881, MATH 221/821. Grading Option: Grade Pass/No Pass Option Description: Introduction to structural, thermal, electrical, and magnetic PHYS 852 Optics and Electromagnetic Waves properties of solids, based on concepts of atomic structure, chemical Crosslisted with: PHYS 452 bonding in molecules, and electron states in solids. Principles underlying Prerequisites: A grade of P, C or better in PHYS 451/851 molecular design of materials and solid-state devices. Description: Production of electromagnetic waves, wave guides and Credit Hours: 3 cavities, properties of waves, plane waves, reflection and refraction, Max credits per semester: 3 interference and coherence phenomena, polarization. Optical properties Max credits per degree: 3 of matter. Grading Option: Grade Pass/No Pass Option Credit Hours: 3 PHYS 831 Thermal Physics Max credits per semester: 3 Crosslisted with: PHYS 431 Max credits per degree: 3 Prerequisites: PHYS 213. Grading Option: Grade Pass/No Pass Option Description: Thermal phenomena from the point of view of PHYS 861 Quantum Mechanics thermodynamics, kinetic theory, and statistical mechanics. Crosslisted with: PHYS 461 Credit Hours: 3 Prerequisites: A grade of P, C or better in PHYS 213 and 311. Max credits per semester: 3 Description: Basic concepts and formalism of quantum mechanics with Max credits per degree: 3 applications to simple systems. Grading Option: Grade Pass/No Pass Option Credit Hours: 3 Max credits per semester: 3 Max credits per degree: 3 Grading Option: Grade Pass/No Pass Option 2 Physics (PHYS) PHYS 862 Atoms, Nuclei, and Elementary Particles PHYS 913 Electromagnetic Theory I Crosslisted with: PHYS 462 Description: Electrostatics, magnetostatics, and Maxwell¿s equations; Prerequisites: A grade of P, C or better in PHYS 461 solutions to boundary value problems and Green¿s functions; Description: Basic concepts and experimental foundation for an electromagnetic radiation. understanding of the physics of atoms, nuclei, and elementary particles. Credit Hours: 3 Credit Hours: 3 Max credits per semester: 3 Max credits per semester: 3 Max credits per degree: 3 Max credits per degree: 3 Grading Option: Grade Pass/No Pass Option Grading Option: Grade Pass/No Pass Option Prerequisite for: PHYS 914; PHYS 918; PHYS 928 PHYS 880 Introduction to Lasers and Laser Applications PHYS 914 Electromagnetic Theory II Crosslisted with: ECEN 480, ECEN 880, PHYS 480 Prerequisites: PHYS 913 or permission Prerequisites: PHYS 213/(UNO) PHYS 2130. Description: Special relativity and covariant formulation of Description: Physics of electronic transition production stimulated electrodynamics; kinematics and dynamics of charged particles; emission of radiation. Threshold conditions for laser oscillation. Types of radiation from moving charges; multipole radiation fields. lasers and their applications in engineering. Credit Hours: 3 Credit Hours: 3 Max credits per semester: 3 Max credits per semester: 3 Max credits per degree: 3 Max credits per degree: 3 Grading Option: Grade Pass/No Pass Option Grading Option: Grade Pass/No Pass Option Prerequisite for: PHYS 928 PHYS 892 Special Topics in Physics PHYS 916 Quantum Mechanics I Crosslisted with: PHYS 492 Prerequisites: Permission Prerequisites: PHYS 213 and permission. Description: Introduction to the formalism of quantum mechanics; Description: Topics vary. applications to elementary systems; angular momentum; scattering Credit Hours: 1-6 theory. Min credits per semester: 1 Credit Hours: 3 Max credits per semester: 6 Max credits per semester: 3 Max credits per degree: 6 Max credits per degree: 3 Grading Option: Grade Pass/No Pass Option Grading Option: Grade Pass/No Pass Option PHYS 899 Masters Thesis Prerequisite for: PHYS 912; PHYS 917; PHYS 925; PHYS 927 Prerequisites: Admission to masters degree program and permission of PHYS 917 Quantum Mechanics II major adviser Prerequisites: PHYS 916 or permission Credit Hours: 1-10 Description: Hilbert-space formulation of quantum mechanics; stationary Min credits per semester: 1 and time-dependent perturbation theory; variational methods; spin; many- Max credits per semester: 10 particle systems and identical particles. Max credits per degree: 99 Credit Hours: 3 Grading Option: Pass No-Pass Max credits per semester: 3 PHYS 911 Classical Mechanics Max credits per degree: 3 Description: Lagrangian and Hamiltonian formulations of the laws of Grading Option: Grade Pass/No Pass Option motion; variational principles; dynamics of rigid bodies; other advanced Prerequisite for: PHYS 918; PHYS 926 topics. PHYS 918 Quantum Mechanics III Credit Hours: 3 Prerequisites: PHYS 913 and 917, or permission Max credits per semester: 3 Description: Introduction to relativistic electron theory; formal Max credits per degree: 3 scattering theory; semi-classical radiation theory; second quantization Grading Option: Grade Pass/No Pass Option and application to many-particle systems, elements of quantum Prerequisite for: PHYS 912; PHYS 928 electrodynamics. PHYS 912 Statistical Physics Credit Hours: 3 Prerequisites: or parallel: PHYS 911 and 916, or permission Max credits per semester: 3 Description: The laws of thermodynamics and thermodynamic functions; Max credits per degree: 3 ensembles; Boltzmann, Fermi-Dirac, and Bose-Einstein statistics; kinetic Grading Option: Grade Pass/No Pass Option theory and transport phenomena. Application to macroscopic systems. PHYS 925 Introduction to Atomic and Molecular Physics Credit Hours: 3 Prerequisites: PHYS 916 or permission Max credits per semester: 3 Description: Selected topics in atomic and molecular physics with Max credits per degree: 3 emphasis on experimentally observed phenomena, including atomic and Grading Option: Grade Pass/No Pass Option molecular spectra and scattering phenomena, and molecular structure. Prerequisite for: PHYS 927 Credit Hours: 3 Max credits per semester: 3 Max credits per degree: 3 Grading Option: Grade Pass/No Pass Option Physics (PHYS) 3 PHYS 926 Introduction to Nuclear and Elementary-Particle Physics PHYS 999 Doctoral Dissertation Prerequisites: PHYS 917 or permission Prerequisites: Admission to doctoral degree program and permission of Description: Selected topics in nuclear and elementary particle physics supervisory committee chair with emphasis on experimentally observed phenomena, including Credit Hours: 1-24 nuclear forces, energy levels, nuclear models, decay of unstable nuclei, Min credits per semester: 1 fundamental interactions and classification schemes. Max credits per semester: 24 Credit Hours: 3 Max credits per degree: 99 Max credits per semester: 3 Grading Option: Pass No-Pass Max credits per degree: 3 Grading Option: Grade Pass/No Pass Option PHYS 927 Introduction to Solid-State Physics