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Course Criteria
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3.00 Credits
A study of the Schroedinger wave equation, operators and matrices, perturbation theory, collision and scattering problems classification of atomic states, and introduction to field quantization.Credit, three hours.
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3.00 Credits
Quantum Mechanics of molecules and solid state. Relastivistic quantum mechanics. Field quantization. Quantum theory of light. Basics of quantum electrodynamics.Credit, three hours.
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3.00 Credits
Independent student research or laboratory work in a specialized field of interest.Credit, three hours.
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3.00 Credits
Independent student research or laboratory work in a specialized field of interest.Credit, three hours.
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0.00 - 6.00 Credits
A research problem in a selected physics topic resulting in a written thesis.Credit, one to six hours.
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6.00 Credits
Upon completion of all courses and research, this course is used to maintain registration until graduation.Credit, none.
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3.00 Credits
Basics of laser spectroscopic techniques and instrumentation. Topics include: ultra violet and visible (uv-vi) absorption spectroscopy; Fourier transform infrared spectroscopy; Raman, fluorescence, and saturation spectroscopy; polarization, correlation, and ultra-fast spectroscopy.Prerequisites: PHYS 600, PHYS 601, PHYS 605.Credit, three hours.
Prerequisite:
PHYS 600 AND PHYS 601 AND PHYS 605
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3.00 Credits
The laser revolution in spectroscopy. Absorption within the Doppler line, Doppler-free broadening spectroscopy, saturation spectroscopy, multiphoton spectroscopy, laser fluorescence, laser Raman, coherent stokes and antistokes Raman spectroscopy, photon echo and coherent spectroscopy. Ultrafast spectroscopy. Modern trends in spectroscopy.Credit, three hour.
Prerequisite:
(PHYS 600)
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3.00 Credits
An overview of the physics of bio-molecular interactions. Topics will include physical models for DNA and protein systems.Credit, three hours.
Prerequisite:
(PHYS 600 AND PHYS 601)
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3.00 Credits
Wave propagation in linear optical systems and optical information processing. Topics include: fundamentals of optical propagation, diffraction, optical imaging, Fourier transform, wave-front modulation, signal processing, and basics of optical processing devices.Credit, three hours.
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