Gas Dynamics with Applications in Industry and Life Sciences: On Gas Kinetic/Dynamics and Life Science Seminar, March 25-26, 2021 and March 17-18, 202 » książka
1. The history and significance of the Klein-Nishina formula (I. P´azsit).- 2. Constructions of simple kinetic equations for a dense gas (T. Miyauchi, S. Takata, M. Hattori, A. Takahashi).- 3. Double Layer Solutions of the Vlasov–Poisson System (M. Suzuki, M. Takayama).- 4. Inverse Magnus effect in a rarefied gas (S. Taguchi, T. Tsuji).- 5. A discontinuous Galerkin approach for stabilized Maxwell’s equations in pseudo-frequency domain (M. Asadzadeh, L. Beilina).- 6. Bidomain model for axon bundles with random geometry (I. Pettersson, A. Rybalko, V. Rybalko).- 7. A posteriori error estimates and adaptive error control for permittivity reconstruction in conductive media (L. Beilina, E. Lindstr¨om).- 8. Truncated SVD for applications in microwave thermometry (L. Beilina, E. Lindstr¨om , L. Frischauf, D. McKelvey).- 9. Methods of quantitative reconstruction for acoustic coefficient inverse problem (L. Beilina, Y. G. Gleichmann, and M. J. Grote).- 10. Numerical validation of optimization approach for solution of coefficient inverse problem in pseudo-frequency domain (A. Karzhou, I. Pettersson, L. Beilina, and K. Pettersson).- 11. A multiscale numerical simulation of quasi-two-dimensional bacterial turbulence using a regularized Stokeslet representation (K. Ishimoto).- 12. Visualization of 14C-labeled gas fixation in a plant – development of real-time radioisotope imaging (T. M. Nakanishi).- 13. Numerical study on the self-organized pattern formation of run-and-tumble chemotactic bacteria (K. Adachi, S. Yasuda).- 14. Derivation of a generalised replicator equation in the limit of weak selection (P. Gerlee).- 15. A review and case study of neural network techniques for automated generation of high level-of-detail 3D city models (V. Naserentin, G. Spaios, A. Kaimakamidis, N. Pitsianis, A. Logg).
M. Asadzadeh is a Full Professor (Emeritus since 2022, continues as research staff) at the department of Mathematical Sciences Chalmers University of Technology and Gothenburg University. He defended his thesis 1986, and since then he has been employed at Chalmers. 1993-1995 he was a visiting Assistant/Associate Professor at the University of Michigan in Ann Arbor, and 2006-2007 he worked as Professor at Cornell. Spring 2009 he was visiting Kyoto University in a JSPS programme. His research interest is numerical analysis of hyperbolic pdes, convection-diffusion and integro-differential equations: finite element methods for the neutral (neutron transport) and charged (Vlasov-Poisson, Maxwell/Vlasov-Maxwell, Fokker-Planck,
Fermi, BGK and Schrödinger) particle transport. He is in editorial board of 5 international math journals, he has authored 4 Math books and some 80 peer reviewed articles in math and engineering journals.
L. Beilina is as Full Professor at the Department of Mathematical Sciences at Chalmers University of Technology and University of Gothenburg since 2018. She defended PhD thesis in 2003 at the same department. In 2003-2005 and 2007-2009 she worked as an Assistant
Professor at University of Basel, Switzerland, and at NTNU, Trondheim, Norway. Since 2009 she has been employed at University of Gothenburg. Her main research interests are in the solution of inverse and ill-posed problems, optimization, adaptive finite element method and
high-performance scientific computing. She is developer of software package WavES (waves24.com) for adaptive solution of forward and inverse wave propagation problems.
She is in editorial board of 3 mathematical international journals. She is author of more than 80
papers published in peer-reviewed journals and peer-reviewed conference proceedings, 2 books, and editor of 6 conference proceedings in the series "Springer Proceedings in Mathematics and Statistics".
S. Takata has been a full professor at the Department of Aeronautics and Astronautics at Kyoto University since 2013. He defended Dr. Eng. thesis in 1994 and has been employed at Kyoto University since then. He was a JSPS Fellow in 1992-1994 and received the Ryumon
Prize from the Japan Society of Fluid Mechanics in 1995. In 2001-2002 he was a MEXT overseas researcher at the Ecole Normale Sup\'rieure in Paris. He was a visiting professor at the Universit\' Denis Diderot in winter 2004, a visiting scholar at the Academia Sinica
(Taiwan) in winter 2008-2009, and an invited professor at the Ecole Polytechnique in winter 2011. His research interests are in the kinetic theory of gases and related fields. He is currently a member of the advisory committee of the International Symposium on Rarefied
Gas Dynamics and a member of the Editorial Board of Networks and Heterogeneous Media. He is the author of more than 90 publications in refereed journals and conference proceedings.
This proceedings volume gathers selected contributions presented at two instances of the "JSPS/SAC Seminar: On Gas Kinetic/Dynamics and Life Science", held by the Chalmers University of Technology and University of Gothenburg, Sweden, on March 25-26, 2021 (virtual) and March 17-18, 2022 (virtual).
Works in this book provide a concise approach to the theoretical and numerical analysis of kinetic type equations that arise, for example, in modeling industrial, medical, and environmental problems. Readers will find some of the most recent theoretical results, newly developed numerical methods in the field, and some open problems. Possible application areas encompass fission/fusion energy, electromagnetics, nuclear science and engineering, medical service, radiation oncology, and plants growth conditions, to name a few.
The JSPS/SAC seminars are jointly organized by JSPS (Japan Society for the Promotion of Science)—Stockholm Office and the Department of Mathematical Sciences, Chalmers University of Technology & University of Gothenburg, Sweden. These seminars foster discussions on the mathematical theory, industrial and life science applications, and numerical analysis of non-linear hyperbolic partial differential equations modeling collision-less plasma and charged particles.
Chapter 4 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.
Chapter 11 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.