Oklahoma State University

215

CHEM 6650 Selected Topics in Advanced Physical and Inorganic Chemistry Prerequisites: Consent of instructor. Description: Supervised study of selected topics and fields not otherwise covered. Same course as CHEM 5960. Offered for variable credit, 1-6 credit hours, maximum of 12 credit hours. Credit hours: 1-6 Contact hours: Other: 1 Levels: Graduate Schedule types: Independent Study Department/School: Chemistry CHEM 6803 Photonics I: Advanced Optics Prerequisites: ECEN 3813 or PHYS 3213, or consent of instructor. Description: Advanced optics, including spectral and time characteristics of detectors, characteristics of lasers, time, spectral and spatial parameters of laser emission, interferometric techniques, and nonlinear effects such as two-photon absorption and second and third harmonic generations. Ultra short laser pulses. Same course as ECEN 6803 & PHYS 6803. Offered for fixed credit, maximum of 9 credit hours. Credit hours: 3 Contact hours: Lab: 6 Levels: Graduate Schedule types: Lab Department/School: Chemistry CHEM 6810 Photonics II: THz photonics and THz time-domain spectroscopy Prerequisites: CHEM 6803. Description: THz photonics and THz time-domain spectroscopy (THz- TDS). Concepts and techniques of driving electronic circuitry with ultra short laser pulses to generate and detect freely propagating pulses of THz electromagnetic radiation using several operational research systems. Same course as ECEN 6810 & PHYS 6810. Offered for fixed credit, maximum of 4 credit hours. Credit hours: 1 Contact hours: Lab: 2 Levels: Graduate Schedule types: Lab Department/School: Chemistry CHEM 6811 Photonics II: Thz Photonics and THz - TDS Prerequisites: CHEM 6803. Description: THz photonics and THz time-domain spectroscopy (THz- TDS). Concepts and techniques of driving electronic circuitry with ultrashort laser pulses to generate and detect freely propagating pulses of THz electromagnetic radiation using several operational research systems. Same course as ECEN 6811 and PHYS 6811. Credit hours: 1 Contact hours: Lecture: 1 Levels: Graduate Schedule types: Lecture Department/School: Chemistry

CHEM 6820 Photonics II: Spectroscopy II Prerequisites: CHEM 6803.

Description: Operating principles and applications of laser spectroscopy of atoms, molecules, solids and complex fluids. Absorption, emission, photon correlation, coherence, time resolved Fourier transform. Raman spectroscopy and non-linear optical. Same course as ECEN 6820 & PHYS 6820. Offered for fixed credit,1 credit hour(s), maximum of 4 credit hours. Credit hours: 1 Contact hours: Lab: 2 Levels: Graduate Schedule types: Lab Department/School: Chemistry CHEM 6830 Photonics II: Spectroscopy III Prerequisites: CHEM 6803. Description: Advanced spectroscopic instruments and methods used for investigation of semi-conductors and solid state material. Stimulated emission characterized both in wavelength and in time. Time-resolved fluorescence measurements. Multiphotonic excitations. Fast measuring techniques, including subnanosecond detectors, picosecond streak cameras, and ultra fast four-wave mixing and correlation techniques. Time-dependent photoconductivity measurements. Same course as ECEN 6830 & PHYS 6830. Offered for fixed credit, 1 credit hour(s), maximum of 4 credit hours. Credit hours: 1 Contact hours: Lab: 2 Levels: Graduate Schedule types: Lab Department/School: Chemistry CHEM 6840 Photonics III: Microscopy II Prerequisites: CHEM 3553 or consent of instructor. Description: The structure and imaging of solid surfaces. Basics of scanning probe microscopy (SPM). Contact and noncontact atomic force microscopy (AFM). Scanning tunneling microscopy (STM) in air. Same course as ECEN 6840 & PHYS 6840. Offered for fixed credit, 1 credit hour(s), maximum of 4 credit hours. Credit hours: 1 Contact hours: Lab: 2 Levels: Graduate Schedule types: Lab Department/School: Chemistry CHEM 6850 Photonics III: Microscopy II Prerequisites: CHEM 3553 or consent of instructor. Description: Advanced techniques of scanning probe microscopy (SPM). Magnetic force microscopy, Kelvin force microscopy, scanning tunneling microscopy (STM) in vacuum. Characterization of materials with SPM. Nanolithography with SPM. Device manufacturing and analysis. Same course as ECEN 6850 & PHYS 6850. Offered for fixed credit, 1 credit hour(s), maximum of 4 credit hours. Credit hours: 1 Contact hours: Lab: 2 Levels: Graduate Schedule types: Lab Department/School: Chemistry