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Course Criteria
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3.00 Credits
Prerequisites: Chemistry 200 or 202; and Chemistry 410B or Physics 360 or Mechanical Engineering 350 or 352. Structure, synthesis, physical properties, and utilities of polymers.
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3.00 Credits
Prerequisites: Physics 406 with minimum grade of C; credit or concurrent registration in Physics 400B. Electromagnetic theory, matrix methods of optics, propagation of Gaussian beams, optical resonators, interaction of radiation and atomic systems, theory of laser oscillation, nonlinear optics, specific laser systems, optical detectors, applications of lasers in physics.
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3.00 Credits
One lecture and six hours of laboratory. Prerequisites: Physics 357 with minimum grade of C; Physics 406 with minimum grade of C; credit or concurrent registration in Physics 552. Experiments in various fields of modern optics such as holography, physics of lasers, Fourier transform spectroscopy, Raman spectroscopy, light modulation techniques, fiber optics, spatial filtering, diffraction grating spectroscopy, radiometry, and nonlinear optics.
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1.00 - 3.00 Credits
Prerequisites: Concurrent registration in Physics 498A or 498B or 797 and consent of instructor. Student and faculty research project presentations. Maximum credit three units.
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3.00 Credits
Prerequisites: Credit or concurrent registration in Physics 354. Ionizing radiation fields, interactions of radiation with matter, cavity theory, external radiation dosimetry.
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3.00 Credits
One lecture and six hours of laboratory. Prerequisites: Physics 311 and 560. Radiation detection, measurement, and spectroscopy. Ionization chambers, GM and proportional counters, scintillation and semiconductor detectors, and thermoluminescent dosimetry.
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3.00 Credits
Prerequisites: Credit or concurrent registration in Physics 410. Nuclear and elementary particle phenomena including nuclear structure, decay, and radioactivity. Nuclear reactions and devices. Experimental methods and applications.
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3.00 Credits
Prerequisites: Physics 354 and 400B. Relative coordinates, Lorentz transformation, covariant formation of the laws of physics, applications of special relativity, introduction to curved space time, cosmology.
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3.00 Credits
Prerequisites: Physics 354; Computer Engineering 160 or Computer Science 106; and credit or concurrent registration in Physics 400A. Computer programming for numerical solution of problems in classical mechanics, electromagnetism, optics, and quantum mechanics. Use of Fortran and C programming languages and the UNIX operating system. Incorporation of standard subroutines for linear algebra and differential equations into student written programs.
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1.00 - 4.00 Credits
Prerequisites: Consent of instructor. Selected topics in classical and modern physics. May be repeated with the consent of the instructor. See Class Schedule for specific content. Limit of nine units of any combination of 296, 496, 596 courses applicable to a bachelor's degree. Maximum credit of six units of 596 applicable to a bachelor's degree. Credit for 596 and 696 applicable to a master's degree with approval of the graduate adviser.
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