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Course Criteria
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4.00 Credits
Topics include linear circuits, diodes, field effect transistors, signal processing.
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4.00 Credits
Topics include sequential logic, amplifier noise, data conversions, computer interfacing.
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3.00 Credits
Microscopic form of Maxwell's equations, derivation and solution of the wave equation, Lorentz covariant formulation, motion of charges in given fields, propagation and diffraction, radiation by given sources, coupled motion of sources and fields, the electromagnetic field in dense media.
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3.00 Credits
review of fundamentals, central force problems, matrix mechanics. 632: approximation methods, scattering. 633: rotation symmetry, spin, identical particles. Sequence.
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4.00 Credits
Time-dependent formulation of scattering, relativistic equations and solutions, hole theory, symmetry properties, second quantization, Fock space.
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3.00 Credits
Classification and quantum numbers of elementary particles; elements of group theory, Lorentz group and spin; discrete and continuous symmetries; phenomenology of weak, electromagnetic, and strong interactions; quark model of hadron structure. Prereq: PHYS 633.
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4.00 Credits
Canonical quantization, path integral formulation of quantum field theory, Feynman rules for perturbation theory, quantum electrodynamics, renormalization, gauge theory of the strong and electroweak interactions. Prereq: PHYS 634.
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4.00 Credits
Crystallography; thermal, electrical, optical, and magnetic properties of solids; band theory; metals, semiconductors, and insulators; defects in solids. Prereq: PHYS 633.
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4.00 Credits
Advanced topics include quantum and statistical description of many-particle systems, electronic structure, elementary excitations in solids and fluids, critical phenomena, statics and dynamics of soft condensed matter. Topics and emphasis vary.
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3.00 Credits
Nonlinear optical processes and quantum statistical properties of light produced by such processes, laser theory, wave mixing processes, optical Bloch equations, field quantization, photon statistics, cooperative emissions. Prereq for 684: undergraduate quantum mechanics; coreq for 685, 686: PHYS 631, 632.
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