Laser Spectroscopy of Highly Energetic Molecules
Dr. Polik's research program is directed toward understanding the behavior of molecules with large amounts of energy, as it is these molecules which undergo chemical reaction.
Highly excited vibrational states of polyatomic molecules are experimentally studied by combining laser spectroscopy, molecular beam techniques, and high resolution dispersed fluorescence spectroscopy. The molecular beam cools molecules to a few degrees Kelvin, thereby removing spectral congestion. A narrowband laser is used to selectively excite sample molecules to a single quantum state in the first excited electronic state. The resulting fluorescence is dispersed with a monochromator, yielding a spectrum of highly excited levels in the ground electronic state.
The fluorescence emission spectrum contains information about the energy levels and dynamics of the excited vibrational states. Results have been recorded and analyzed for H2CO/HDCO/D2CO, HFCO/DFCO, and HCCH.
This year a new project has been started to develop a source for producing small radicals, e.g., CHCl, CCl2, etc., and measure their dispersed fluorescennce spectrum.
Students working on this project will gain hands-on experience with Nd:YAG and tunable dye lasers, optics, a monochromator, a molecular beam chamber, vacuum systems, optical detection equipment, electronics, and signal conditioning equipment. Students participate in every aspect of the research process: review of the chemical literature, experiment design, apparatus construction, data acquisition, data analysis, interpretation and modeling, oral/written presentations, and manuscript preparation. The entire research group holds weekly meetings in which experimental techniques, computational results, related research in the literature, and their results are discussed. In short, students are active participants in all aspects of the scientific method, become well-trained to pursue scientific careers, and make major contributions to solving important scientific problems.
This project is open to Hope College students who are majoring in chemistry, engineering, or physics.
For more information, check out Dr. Polik's Home Page.