Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Inverse problems of vibrational spectroscopy Gulnara Kuramshina
Document related concepts
Molecular Hamiltonian wikipedia , lookup
History of quantum field theory wikipedia , lookup
Copenhagen interpretation wikipedia , lookup
Hidden variable theory wikipedia , lookup
Interpretations of quantum mechanics wikipedia , lookup
Astronomical spectroscopy wikipedia , lookup
Two-dimensional nuclear magnetic resonance spectroscopy wikipedia , lookup
Mössbauer spectroscopy wikipedia , lookup
Transcript
Inverse problems of vibrational spectroscopy Gulnara Kuramshina Department of Physical Chemistry, Faculty of Chemistry, Lomonosov Moscow State University Moscow 119991, RUSSIA E-mails: [email protected] [email protected] Short description The first part of this course gives a basic introduction to the physical and mathematical backgrounds of the data processing in vibrational (Infrared and Raman) spectroscopy. The second part deals with the application of new stable numerical methods based on the theory of regularization to the inverse problems of vibrational spectroscopy (of determining parameters of the molecular force field from given experimental data) formulated within different models. Particularly, joint treatment of experimental data on vibrational spectra and results of quantum mechanical calculations within new approaches is considered. Location and dates Department of Mathematical Sciences, fall semester 2013. November 4 – November 12, 2013. Introductory lecture: Should be fixed later. Aim of the course After a successful completion of the course the students will be able to use the normal coordinate analysis for the interpretation of vibrational spectra, to determine molecular force fields within different models (including the scaling approach of quantum mechanical molecular force fields) and to propose the complete interpretation of infrared and Raman spectra. Target group Graduate students in physics and physical chemistry. Entry requirements Basic undergraduate courses in physics, linear algebra and calculus. Course organizers Gulnara Kuramshina ([email protected]) and Larisa Beilina Teachers Gulnara Kuramshina ([email protected]) Course program Introduction to the experimental methods of vibrational spectroscopy and physical model of molecular vibrations. Small vibrations, quantum mechanical model of molecular vibrations. Mathematical models of molecular vibrations, model parameters: ab initio, semiempirical and empirical methods. Molecular force fields models. Generalized coordinates, redundant and symmetry coordinates. Direct and inverse problems of vibrational spectroscopy. Correctness of mathematical problems. Ill-posed problems in vibrational spectroscopy. Mathematical statement of inverse vibrational problem. Joint treatment of experimental and ab initio data within regularization algorithms. Lectures 7 double hours. Exam Project work with a written report. Registration Please contact the course organizers for information. Literature 1. A.G. Yagola, I.V.Kochikov, G.M.Kuramshina, Yu.A.Pentin. Inverse problems of vibrational spectroscopy. VSP, Zeist, The Netherlands, 1999. ISBN 90-6764-304-1, p. 1-298 2. I.V.Kochikov, G.M.Kuramshina, A.G.Yagola. Surveys on Mathematics for Industry 8 (1998) 63-94. 3. G.M.Kuramshina, F.A.Weinhold, I.V.Kochikov, Yu.A.Pentin, A.G.Yagola, J. Chem. Phys. 100 (1994). 14141424. 4. I.V.Kochikov,G.M.Kuramshina,A.V.Stepanova, Int. J. Quant. Chem. 109 (2009) 28-33.
