Projects |
Project 1:
Effect of Protein Matrix on Electron Transfer
(Analytical Theory)
166. Coupling of protein motion to electron transfer in a photosynthetic
reaction center:
Investigating the low temperature behaviour in the
framework of the spin-boson model.
Dong Xu and Klaus Schulten. Chemical Physics,
182:91-117, 1994.
Abstract
Project 2: Magnetic Resonance Imaging Microscopy
(Analytical Theory, Non-Equilibrium Statistical Mechanics)
147. Edge enhancement by diffusion in microscopic magnetic resonance
imaging.
Benno Pütz, Daniel Barsky, and Klaus Schulten. Journal of
Magnetic Resonance, 97:27-53, 1992.
Abstract
172. Diffusional edge enhancement observed by NMR in thin glass
capillaries.
Daniel Barsky,Benno Pütz, Klaus Schulten, J. Schoeniger, E. W. Hsu,
and S. Blackband
Chemical Physics Letters, 200:88-96, 1992.
Abstract
Project 3: Effect of Noise on Neural Pulses
(Analytical Theory, Some Computing, Non-Equilibrium Statistical
Mechanics)
53. Noise induced limit cycles of the Bonhoeffer-van der Pol model of
neural pulses.
Herbert Treutlein and Klaus Schulten. Ber. Bunsenges. Phys.
Chem., 89:710-718, 1985.
Abstract
137. Effect of noise and perturbations on limit cycle systems.
Christian Kurrer and Klaus Schulten. Physica D, 50:311-320, 1991.
Abstract
Project 4: Figure - Ground Separation in Biological Vision
(Computing, Non-Equilibrium Statistical Mechanics; interesting, but much
work)
144. A model for synchronous activity in the visual cortex.
Christian Kurrer, Benno Nieswand,and Klaus Schulten. In A. Babloyantz, editor,
Self-Organization,
Emergent Properties, and
Learning, volume 260 of NATO ASI Series B, pages 81-95.
Plenum Press, New York, 1991.
Abstract
194. Noise-induced neuronal oscillations.
Christian Kurrer and Klaus Schulten. Physical Review E, 51:6213-6218, 1995.
Abstract
Project 5: Neural Map in Visual Cortex
(Analytical Theory, Statistical Mechanics)
167. Statistical-mechanical analysis of self-organization and pattern
formation during the development of visual maps.
Klaus Obermayer, Gary G.Blasdel, and Klaus Schulten.
Physical Review A, 45:7568-7589, May 1992.
Abstract
95. Convergence properties of Kohonen's topology conserving maps:
Fluctuations, stability and dimension selection.
Helge Ritter and Klaus Schulten. Biological Cybernetics, 60:59-71, 1988.
Abstract
Project 6: Topology Representing Neural Maps
(Computational Experiment)
178. Topology representing networks. Thomas Martinetz and Klaus
Schulten.
Neural Networks, 7:507-522, 1994.
Abstract
Project 7: Morphogenetic Field of Slime Mold Amoebae
(Computational Experiments, Original Project)
81. Ordnung aus Chaos, Vernunft aus Zufall - Physik biologischer und
digitaler Informationsverarbeitung
Klaus Schulten. In B.-O.
Küppers, editor, Ordnung aus dem Chaos, pages 243-268.
Piper Verlag, Munich, 1987.
Abstract
L.A. Segal "Mathematical Models in Molecular Biology", Cambridge U. Press (1980)
Project 8: Formation of Head - Tail Polarity in Hydra
(Analytical Theory)
A. Gierer, "generation of Biological Patterns and Form: Some Physical,
Mathematical, and Logical Aspects"
Progr. Biophys. molec. Biology, 37:
1-47 (1981)
Project 9: Theory of Molecular Evolution
Through Hypercycles
(Analytical Theory)
M. Eigen and P. Schuster, The Hypercycle - A Principle of Natural
Self-Organization,
Naturwissenschaften 64: 541-565 (1977)