People | Faculty | Rob Coalson
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Rob Coalson Department of Chemistry |
Quantum Dynamics Theory, with Application to Condensed Phase Systems: Exact and approximate wavepacket dynamics techniques, developed in our group and elsewhere, have been utilized to investigate experimentally observable signatures of condensed ph ase quantum dynamics. Specific processes include resonance Raman spectra of chromophores (e.g. CS2) in solvents of various polarities, electron transfer of mixed valences transition metal complexes in polar solvents and e lectron stimulated desorption of adsorbates from solid surfaces. [(e.g., CO on Cu]. Theoretical issues include development of (i) numerical algorithms capable of solving the many-body time-dependent Schrodinger Equation, (ii) implementable formalism for extracting spectroscopic observables from condensed phase wavepacket simulations, and (iii) simple models (e.g., of a single particle interacting with an environment) to aid in the interpretation of experimental and simulation data. Frontiers include (i) quantum dynamics of systems immersed in liquids and other amorphous environments, (ii) determination of Born-Oppenheimer level electronic structure "on the fly" in the course of during nuclear wavepacket dynamical evolution, (iii) accurate treatment of ele ctronuclear coupling effects, for example, in nondiabatic transition processes, and (iv) understanding the effect of applied laser fields on electron transfer reactions.
Colloid Science: Structural and Dynamics of Charged Polystyrene Sphere Suspensions: We are interested in the properties of highly charged polystyrene spheres (diameter ca. 0.1 micron) suspended in aqueous ionic solutions. To minimize Coulombic rep ulsions, these polyballs can order into a solid phase; melting is caused by addition of a sufficient quantity of impurity ions that shield the polyballs. Current work centers around quantification of the fundamental inter-polyball forces as a function of impurity ion concentration, polyball charge, etc. Also underway are studies of the structure and stability of novel polyball structures (including materials made by embedding colloid crystals in polymer films and gels), and investigation of nonequilibrium dynamics of these suspensions (e.g., response to laser heating and shearing).
Design of Dielectric Waveguides: Design of Dielectric Waveguides. Interest in electro-optic integration of GaAs derived materials has spurred characterization of the field-induced optical properties of multi-quantum well structures. We compute numerical solutions to Maxwellís Equations in order to predict the characteristics of optical waveguides made from such structures. Recently, we have applied optimal central theory to aid in the design of these and other optical waveguides. Also of interest are a microscopic understanding of optical absorption and electrical conduction processes in these materials and the influence of such microscopic properties on the macroscopic electromagnetic fields that propagate through waveguides.
Awards
NSF Presidential Young Investigator, 1986-91; Alfred P. Sloan Foundation Fellow, 1989-91; Camille and Henry Dreyfus Teacher-Scholar, 1990-94; Chancellor's Distinguished Research Award, University of Pittsburgh, 1995
Selected Publications
"Condensed-phase Relaxation of Multilevel Quantum Systems. II. “Comparison of Path Integral Calculations and Second-Order Relaxation Theory for a Non-degenerate Three-level System," Peter, S.; Evans, D. G.; Coalson, R. D., Journal of Physical Chemistry B, 2006, in press
"Condensed-phase Relaxation of Multilevel Quantum Systems. I. An Exactly Solvable Model," Peter, S.; Evans, D. G.; Coalson, R. D., Journal of Physical Chemistry B, 2006, in press
"Diffusion Constant of K+ inside Gramicidin A: a Comparative Study of Four Computational Methods," Mamonov, A. B.; Kurnikova, M. G.; Coalson, R. D., Biophysical Chemistry, 2006, in press
"Poisson-Nernst-Planck theory of ion permeation through biological channels," Coalson, R. D.; Kurnikova, M. G., Handbook of ion channels: Dynamics, structure, and applications, S-H Chung, O. Andersen and V. Krishnamurthy, Ed., 2006, in press
"Superfluidity of Dirty Indirect Excitons and Magnetoexcitons in a Two-dimensional Trap," Berman, O. L.; Lozovik, Yu. E.; Snoke, D. W.; Coalson, R. D., Physical Review B, 2006, 73, 235352:1-5
"Fast Fourier Transform Simulation Techniques for Coulomb Gases," Duncan, A.; Sedgewick, R. D.; Coalson, R. D., Computer Physics Communications, 2006, 175, 73-77
"Local simulation algorithms for Coulomb gases with dynamical dielectric effects," Duncan, A.; Sedgewick, R. D.; Coalson, R. D., Physical Review E, 2006, 73, 016705
"An introduction to simulation and visualization of biological systems at multiple scales: A summer training program for interdisciplinary research," Munshi, R.; Coalson, R. D.; Ermentrout, G. B., Biotechnology Progress, 2006, 22, 179-185
"Exact solution of a model of condensed-phase electron transfer with non-Condon effects," Cook, W. R.; Evans, D. G.; Coalson, R. D., Chemical Physics Letters, 2006, 420, 362-366
"A rigid-body Newtonian propagation scheme based on instantaneous decomposition into rotation and translation blocks," Essiz, S.; Coalson, R. D., Journal of Chemical Physics, 2006, 124, 144116