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Course Criteria
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4.00 Credits
A study of the physics behind light emitting molecules and their applications in biology.Credit, four hours.
Prerequisite:
(PHYS 600)
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4.00 Credits
Treatment of basic principles of lasers and their applications. Topics to be covered include, fundamentals of quantum electronics, oscillator model, rate equations, stimulated transitions, population inversion, laser amplification, design of laser resonators, principles of q-switching, mode locking, injection locking and modern applications of lasers.Credit, four hours.
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3.00 Credits
Current research topics in optics and spectroscopy.Credit, three hours.
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3.00 Credits
An advanced course in analysis and design of optical and photonic systems. The laboratory part of the course consists in learning and using optical design software for the assessment of optical system image quality. Credit, three hours. 2-hour lecture and 2-hour laboratory
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3.00 Credits
Lagrangian formulation, the Kepler problem, Rutherford scattering, rotating coordinate systems, rigid body motion, small oscillations, stability problems, and Hamiltonian formulation. Credit, three hours.
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3.00 Credits
An introductory study of the structure and physical properties of crystalline solids. Included are topics in crystal structure, lattice vibrations, thermal properties of solids, x-ray diffraction, free electron theory and energy based theory.Credit, three hours.
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3.00 Credits
Laws of thermodynamics, Boltzmann and quantum statistical distributions, with applications to properties of gases, specific heats of solids, paramagnetism, black body radiation and Bose-Einstein condensation. Credit, three hours.
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3.00 Credits
An advanced treatment of mathematical topics including operators, matrix mathematics, complex variables and eigenvalue problems. Credit, three hours.
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3.00 Credits
Treatment of boundary value problems of electrostatics and magnetostatics, electromagnetic radiation, radiating systems, wave guides, resonating systems and multipole fields. Credit, three hours.
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3.00 Credits
Treatment of boundary value problems of electrostatics and magnetostatics, electromagnetic radiation, radiating systems, wave guides, resonating systems and multipole fields. Credit, three hours.
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