Publikationen von Alexander S. Mikhailov
Alle Typen
Buchkapitel (16)
161.
Buchkapitel
Evolutionary engineering of complex functional networks. In: Managing Complexity. Insights, Concepts, Applications, S. 359 - 376 (Hg. Helbing, D.). Springer, Berlin (2008)
162.
Buchkapitel
Trapping of phase fronts and twisted spirals in periodically forced oscillatory media. In: Analysis and Control of Complex Nonlinear Processes in Physics, Chemistry and Biology, S. 213 - 224 (Hg. Schimansky-Geier, L.; Fiedler, B.; Kurths, J.; Schoell, E.). World Scientific Publishing Co., Singapore (2007)
163.
Buchkapitel
Entrainment of complex oscillator networks. In: Science of Complex Networks. From Biology to the Internet and WWW; CNET 2004, S. 157 - 165 (Hg. Mendes, J. F. F.; Dorogotsev, S. N.; Povolotsky, A.; Abreu, F.V.; Oliveira, J. G.). American Institute of Physics, Mellville, NY (2005)
164.
Buchkapitel
Intracellular networks of interacting molecular machines. In: Networks of Interacting Machines – Production Organization in Complex Industrial Systems and Biological Cells, S. 177 - 202 (Hg. Armbruster, D.; Kaneko, K.; Mikhailov, A. S.). World Scientific, Singapore (2005)
165.
Buchkapitel
Heterogeneous pacemakers in oscillatory media. In: Dynamics and Bifurcation of Patterns in Dissipative Systems, S. 214 - 2285 (Hg. Dangelmayer, G.; Oprea, I.). World Scientific Publ. Co., Singapore (2004)
166.
Buchkapitel
Modeling pattern formation in excitable media: The legacy of Norbert Wiener. In: Epilepsy as a Dynamic Disease, S. 131 - 164 (Hg. Milton, J.; Jung, P.). Springer, Berlin (2003)
167.
Buchkapitel
Modeling pattern formation in excitable media: The legacy of Norbert Wiener. In: Epilepsy as a Dynamic Disease, S. 131 - 164 (Hg. Jung, P.; Milton, J.). Springer, Berlin-Heidelberg (2002)
168.
Buchkapitel
Coherent intramolecular dynamics in small enzyme populations. In: Single Molecule Spectroscopy. Nobel Conference Lectures, S. 277 - 292 (Hg. Rigler, R.; Orrit, M.; Basché, T.). © 2001 Springer-Verlag, Berlin Heidelberg (2001)
169.
Buchkapitel
Coherent intramolecular dynamics in populations of allosteric enzymes. In: Transport and Structure: Their Competitive Roles in Biophysics and Chemistry, S. 231 - 251 (Hg. Müller, S. C.; Parisi, J.; Zimmermann, W.). Springer, Berlin (1999)
170.
Buchkapitel
Wave propagation in excitable media with fast inhibitor diffusion. In: Transport and structure: Their Competitive Roles in Biophysics and Chemistry, S. 308 - 325 (Hg. Müller, S. C.). Springer, Berlin (1999)
171.
Buchkapitel
Self-motion in physico-chemical systems far from thermal equilibrium. In: Stochastic Dynamics, S. 334 - 345 (Hg. Schimansky-Geier, L.; Pöschel, T.). Springer, Berlin (1997)
172.
Buchkapitel
Localized turbulence and cellular structures in systems with global coupling. In: Nonlinear Physics of Complex Systems, 1 Aufl., S. 149 - 165 (Hg. Parisi, J.; Müller, S. C.; Zimmermann, W.). Springer, Berlin, Heidelberg (1996)
Konferenzbeitrag (1)
173.
Konferenzbeitrag
Nonequilibrium nanostructures in condensed reactive systems. In: Proceedings of the XVII Sitges Conference on Statistical Mechanics, S. 252 - 269 (Hg. Reguera, D.; Bonilla, L.L.; Rubí, J.M.). Coherent Structures in Complex Systems. Springer, Berlin Heidelberg (2001)
Vortrag (24)
174.
Vortrag
Hydrodynamic Collective Effects of Active Proteins in Biological Cells. Seminar, Tokyo Metropolitan University, Tokyo, Japan (2016)
175.
Vortrag
Hydrodynamic Collective Effects of Active Proteins in Biological Cells. 71th Annual Meeting (2016), The Physical Society of Japan, Special joint Biophysics Session, Sendai, Japan (2016)
176.
Vortrag
Design Principles of Molecular Machines. International Symposium, Department of Mathematical and Life Sciences, Hiroshima University, Hiroshima, Japan (2016)
177.
Vortrag
Design Principles of Molecular Machines. The AIMR International Symposium 2016, Tohoku University, Sendai, Japan (2016)
178.
Vortrag
Hydrodynamic Collective Effects of Active Proteins in Biological Cells. Department of Physics, Kyoto University, Kyoto, Japan (2015)
179.
Vortrag
Hydrodynamic Collective Effects of Active Proteins. Lecture, 8th International Conference, Engineering of Chemical Complexity, Garching, Germany (2015)
180.
Vortrag
Simple Elastic Models of Protein Machines. Seminar, Yukawa Institute for Theoretical Physics, Kyoto University, Kyoto, Japan (2015)