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Course Criteria
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3.00 Credits
An overview of engineering biology with an emphasis onmolecular systems. Topics include DNA computers, cellcloning, gene therapy and bio-nanotechnology.
Prerequisite:
PHYS 318
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3.00 Credits
A laboratory course for senior Physics majors covering selected topics on intermediate and advanced levels. One (1) lecture and two (2) two-hour laboratory periods per week.Prerequisites: Consent of the Department.Credit, three hours.
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0.00 - 3.00 Credits
An intermediate course covering subjects related to current developments in physics.Prerequisites: Consent of the Department.Credit, three hours each.
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3.00 Credits
An intermediate course covering subjects related to current developments in physics.Prerequisites: Consent of the Department.Credit, three hours each.
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3.00 Credits
This course is an independent study course dealing with current research methodologies in physics.Prerequisites: PHYS 201, PHYS 202Credit, three hours.
Prerequisite:
(PHYS 201 AND PHYS 202)
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3.00 Credits
A discussion of the moral values, the attitudes and habits acceptable in research, and as exemplified in the process of the acquisition of scientific data, their analysis, and dissemination.Credit, three hours.
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3.00 Credits
A study of geometric and physical optics with particular application to optical instruments and an introduction to lasers and holography.Credit, three hours.
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3.00 Credits
An intermediate course in applied mathematics. Topics covered include the solution of differential equations, vector calculus, Fourier series and Laplace transforms.Credit, three hours.
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4.00 Credits
Electromagnetic description of light and its interaction with matter. Topics include interference, coherence, diffraction, holography, dispersion, polarization, scattering, and confinement.Credit, four hours.
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4.00 Credits
Principles of nonlinear interaction of light and matter based on the semi-classical approximation. Definition of nonlinear induced polarization and nonlinear susceptibility. Basic model of the coherent interaction of light with a two-level system is included. Main nonlinear optical effects are studied: harmonic generation, optical parametric amplification, saturation effects, Kerr effect, coherent effects, stimulated light scattering including stimulated Raman scattering, self-focusing and self-defocusing effects, multi-photon ionization, multi-photon ionization, and other nonlinear optical effects. The course also discusses practical applications of the nonlinear optical phenomena and related technology.Prerequisites: PHYS 600.Credit, four hours.
Prerequisite:
PHYS 600
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