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Sookkyung Lim
Assistant Professor
815 Old Chemistry Building
513-556-4127
sookkyung.lim@uc.edu
http://math.uc.edu/~limsg
Education
Ph.D., Courant Institute of Mathematical Science, New York University, 2003 (Mathematics).
Positions & Work Experience
2006 to Present, Assistant Professor, Department of Mathematical Sciences, University of Cincinnati.
2003-2006, Postdoctoral Researcher, Mathematical Biosciences Institute, Ohio State University.
Research Support
(PI) Sookkyung Lim, Understanding the hydrodynamic interaction among flagella of E. coli using the immersed boundary method combined with the Kirchhoff rod theory, National Science Foundation. (NSF DMS-0815751); Funded 08/15/2008 to 07/31/2011.
(PI) Sookkyung Lim, Mathematical modeling of blood flow in abnormal arteries, The Charles Phelps Taft Research Center. Funded 06/01/2008 to 07/30/2008.
Postdoctoral Researcher Fellowship, Mathematical Biosciences Institute. Funded 09/01/2003 to 08/31/2006.
Paper Presentations
Deformation of a circular rod with twist and bend in fluids. Joint SIAM Conference on the Life Sciences, Raleigh, North Carolina. 07-2006.
A circular rod with twist and bend in fluid. 7th World Congress on Computational Mechanics, Los Angeles, CA. 07-2006.
Mathematical models in biofluids using the immersed boundary method. University of Iowa, Iowa City, Iowa. 09-2005.
Mathematical modeling in life sciences. Konkuk University, Seoul, Korea. 09-2005.
Simulations of the whirling instability of a rotating elastic filament in a viscous fluid by the immersed boundary method. Seoul National University, Seoul, Korea. 09-2005.
Mathematical modeling of aortic aneurysms. European Society for Mathematical and Theoretical Biology, Dresden, Germany. 07-2005.
Whirling instability of an elastic filament by the immersed boundary method. KonKuk University, Seoul, Korea. 06-2004.
Whirling instability of an elastic filament by the immersed boundary method. Gordon Research Conference on Theoretical Biology and Biomathematics, Tilton, NH. 06-2004.
Whirling instability of an elastic filament by the immersed boundary method. Mathematical Biosciences Institute, Ohio State University. 02-2004.
Simulations of biological fluid dynamics by the immersed boundary method. Postdoctoral Research Forum , Mathematical Biosciences Institute, Ohio State. 09-2003.
Subcritical bifurcation of a rotating elastic filament in a viscous fluid by the immersed boundary method. Second M.I.T. Conference on Computational Fluid and Solid Mechanics, Cambridge, MA. 06-2003.
Simulations of the whirling instability by the immersed boundary method. The Society for Mathematical Biology, Knoxville, TN. 07-2002.
Simulations of the whirling instability by the immersed boundary method. Society for Industrial and Applied Mathematics, Philadelphia, PA. 07-2002.
Computer simulations of the whirling instability by the immersed boundary method. Biomathematics seminar , New York University, New York, NY. 04-2002.
3D Simulations of bacterial flagellar motion using the immersed boundary method. The Society for Mathematical Biology, Hilo, Hawaii. 07-2001.
3D Simulations of bacterial flagellar motion using the immersed boundary method without fluid. Biomathematics seminar , New York University, New York, NY. 11-2000.
Dynamics of a ring with twist and bend in a fluid. KAIST, South Korea. 08-2008.
Generalized immersed boundary method combined with the Kirchhoff rod theory. Hanyang University, South Korea. 08-2008.
Mini-Symposium on Modeling, Analysis and Simulation in blood flow. SIAM Conferences on Life Sciences, Montreal, Canada. 08-2008.
Dynamics of a circular DNA with twist and bend in fluid. European Conference for Mathematical and Theoretical Biology, University of Edinburgh, UK. 06-2008.
Simulation of blood flow in a compliant vessel by the immersed boundary method. Gordon Research Conferences, Theoretical Biology and Biomathematics, II Ciocco, Italy. 06-2008.
Simulation of blood flow in a compliant vessel by the immersed boundary method. Cleveland State University. 04/18/2008.
Macroscopic modeling of a circular rod with twist and bend in fluid. Workshop on Mathematics of DNA structure, function and interactions, IMA, University of Minnesota. 09/17/2007.
The immersed boundary method and its applications. Mathematical Biology Seminar, University of Cincinnati. 06/01/2007.
Symposia
(04-2006). Microfluidic Flows in Nature and Microfluidic Technologies. Institute for Pure and Applied Mathematics, UCLA.
