Mathematical and Computational Methods in Quantum ChemistryMay 13 - 16, 2016Yale University |
ABSTRACTIn recent years, the area of mathematical and computational aspects of quantum chemistry has undertaken a rapid development. The interplay between applied mathematics and quantum chemistry is important in generating intriguing new research directions for applied mathematics, in enhancing the understanding of models from quantum chemistry, and in advancing the deleopment of efficient algorithms. This workshop will focus on studying recent developments and open challenges in this area, and on strengthening the interactions between applied mathematician and theoretical chemists. GOALSThis workshop will bring together researchers with diverse expertise on mathematical and numerical methods in quantum chemistry. Our goal is to stimulate interdisciplinary discussions between applied mathematicians and theoretical chemists, with a particular focus on theoretical, mathematical and computational challenges from quantum chemistry. Emphasis will be placed on multiscale problems, quantum-classical coupling, mean-field equations, dimensional reduction, etc. REGISTRATION CLOSEDORGANIZERS |
CONFIRMED PARTICIPANTSFUNDINGA limited amount of travel and local lodging is available for researchers in the early stages of their career who want to attend the full program, especially for graduate students and post-doctoral fellows. INFORMATION FOR PARTICIPANTSDepartment of ChemistryVENUE: Sloane Physics Lab. 225 Prospect Street Yale University New Haven, CT Email: jin@math.wisc.edu CONFERENCE POSTERACKNOWLEDGMENTFunding provided by the NSF through the KI-net Grant. |