Nadler, W., & Schulten, K., Generalized moment expansion for the Mössbauer
spectrum of Brownian particles, Phys. Rev. Lett. 51, 1712-1715 (1983).
Nadler, W., & Schulten, K., Theory of Mössbauer spectra of proteins
fluctuating between conformational substates, Proc. Natl. Acad. Sci. USA
81, 5719-5723 (1984).
Nadler, W., & Schulten, K., Generalized moment expansion for Brownian
relaxation processes, J. Chem. Phys. 82, 151-160 (1985).
Nadler, W., & Schulten, K., Mean relaxation time approximation for
dynamical correlation functions in stochastic systems near instabilities,
Z. Phys. B59, 53-61 (1985).
Nadler, W., Tavan, P., & Schulten, K., A model for the lateral diffusion
of stiff chains in a lipid bilayer, Eur. Biophys. J. 12, 25-31 (1985).
Nadler, W., & Schulten, K., Generalized moment expansion for observables
of stochastic processes in dimensions d>1: Application to Mössbauer
spectra of proteins, J. Chem. Phys. 84, 4015-4025 (1986).
Nadler, W., & Marcus, R. A., Dynamical effects in electron transfer
reactions. II. Numerical solution, J. Chem. Phys. 86, 3906-3924 (1987).
Nadler, W., & Marcus, R. A., Low-frequency expansion for probability
amplitudes: An alternative approach to certain intramolecular dynamics
problems, J. Chem. Phys. 86, 6982-6991 (1987).
Nadler, W., Brünger, A., Schulten, K., & Karplus, M., Molecular
and stochastic dynamics of proteins, Proc. Natl. Acad. Sci. USA 84,
7933-7937 (1987).
Nadler, W., & Marcus, R. A., Non-exponential time behavior of electron
transfer in an inhomogeneous polar medium, Chem. Phys. Lett. 144, 24-30
(1988).
Nadler, W., & Marcus, R. A., Mean relaxation time description of quasi-dissipative
behavior in finite-state quantum systems, Chem. Phys. Lett. 144, 509-514
(1988).
Bauer, H. U., Schulten, K., & Nadler, W., Generalized moment expansion
of dynamic correlation functions in finite Ising systems, Phys. Rev. B38,
445-458 (1988).
Nadler, W., & Schulten, K., Mean relaxation time approximation for
dynamical correlation functions in stochastic systems near instabilities.
II. The single mode laser, Z. Phys. B72, 535-543 (1988).
Nadler, W., Mean relaxation time approximation for dynamical correlation
functions in stochastic systems near instabilities. III. The mean field
n-vector model, Z. Phys. B73, 271-275 (1988).
Nadler, W., & Marcus, R. A., Electron transfer in a dynamically disordered
polar medium, Isr. J. Chem. 30, 69-77 (1990).
Nadler, W., & Stein, D. L., Biological transport processes and space
dimension, Proc. Natl. Acad. Sci. USA 88, 6750-6754 (1991).
Nadler, W., & Krausche, T., Universality in hydrogen bond networks,
Phys Rev. A 44, R7888-7890 (1991).
Krausche, T., & Nadler, W., Statistical mechanics of hydrogen bond
networks, Z. Phys. B 86, 433-442 (1992).
Ebeling, M., & Nadler, W., Tertiary interactions in a model of the
helix-coil transition, J. Chem. Phys. 99, 6865-6875 (1993).
Levermore, D., Nadler, W., & Stein, D.L., Random walks
on a fluctuating lattice: A renormalization group approach applied in one
dimension, Phys. Rev. E 51, 2779-2786 (1995).
Ebeling, M., & Nadler, W., On constructing folding heteropolymers,
Proc. Natl. Acad. Sci. USA 92, 8798-8802 (1995).
Nadler, W., & Stein, D.L., Reaction-diffusion description of
biological transport processes in general dimensions, J. Chem. Phys. 104,
1918-1938 (1996).
Ebeling, M., & Nadler, W., Reconstruction of a first order phase transition
from computer simulations of individual phases and subphases, Phys.
Rev. E 53, 3365-3368 (1996).
Nadler, W., Huang, T., & Stein, D.L., Random walks on random partitions
in one dimension, Phys. Rev. E 54, 4037-4047 (1996).
Weth, F., Nadler, W. & Korsching, S., Nested expression domains
for odorant receptors in zebrafish olfactory epithelium, Proc. Natl. Acad.
Sci. USA. 93, 13321-13326 (1996).
Ebeling, M., & Nadler, W., Protein folding : Optimized sequences
obtained by simulated breeding in a minimalist model, Biopolymers.
41, 165-180 (1997).
Nadler, W., & Fink, W., Finite size scaling in neural networks,
Phys. Rev. Lett. 78, 555-559 (1997).
Nadler, W., Diebner, H., & Ro%ssler, O.E., Space-discretized Verlet-algorithm
from a variational principle, Z. Naturforsch. 52 A, 585-587 (1997).
Frauenkron, H., Bastolla, U., Gerstner, E., Grassberger, P., &
Nadler, W., New Monte Carlo algorithm for protein folding, Phys Rev.
Lett. 80, 3149-3153 (1998).
Bastolla, U., Frauenkron, H., Gerstner, E., Grassberger, P., &
Nadler, W., Testing a new Monte Carlo algorithm for protein folding,
PROTEINS: Structure, Function & Genetics 32, 52-66 (1998).
Bauer, W.R., Nadler, W., Bock, M., Schad, R.S., Wacker, C., Hartlep, A.,
& Ertl, G., Theory of the BOLD effect in the capillary region: An analytical
approach for the determination of T2* in the capillary network of the myocardium,
Magn. Reson. Med. 41, 51-62 (1999).
Bauer, W.R., Nadler, W., Bock, M., Schad, R.S., Wacker, C., Hartlep, A.,
& Ertl, G., Theory of Coherent and Incoherent Nuclear Spin-Dephasing
in the Heart, Phys. Rev. Lett. 83 (1999) 4215-4218.
Bauer, W.R., Nadler, W., Bock, M., Schad, R.S., Wacker, C., Hartlep, A.,
& Ertl, G., The Relationship Between BOLD Induced T2 and T2* : A Theoretical
Approach for the Vasculature of Myocardium, Magn. Reson. Med. 42,
1004-1010 (1999).
Bauer, W.R., Nadler, W., Spin dephasing in the extended strong collison
approximation, Phys. Rev. E , E 65, 066123 (2002).
Grassberger, P., Nadler, W., and Yang, L., Heat Conduction and Entropy Production in a One-Dimensional Hard-Particle Gas,
Phys. Rev. Lett. 89, 180601 (2002).
Hsu, H.-P., Mehra, V., Nadler, W., and Grassberger, P.,
Growth-based Optimization Algorithm for Lattice Heteropolymers,
Phys. Rev. E 68, 021113 (2003).
Hsu, H.-P., Mehra, V., Nadler, W., and Grassberger, P.,
Growth Algorithms for Lattice Heteropolymers at Low Temperatures,
J. Chem. Phys. 118, 444 (2003).
Hsu, H.-P., Nadler, W., and Grassberger, P.,
Scaling of Star Polymers with one to 80 Arms,
e-print cond-mat/0310534 (2003).
Kraskov, A., Kreuz, T., Andrzejak, R.G., Stögbauer, H., Nadler, W., and Grassberger, P.,
Extracting phases from aperiodic signals. (submitted 2003).
Conference papers
Schulten, K., Brünger, A., Nadler, W. & Schulten, Z., Generalized
moment description of Brownian dynamics in biological systems, in: Frehland,
E. (ed.) Synergetics - from microscopic to macroscopic order, Springer,
Berlin 1984 (Springer Series in Synergetics 22), pp. 80-89.
Nadler, W., & Marcus, R. A., Electron transfer in a complex environment,
in: Bohr, H., (ed.) Characterising complex systems, World Scientific, Singapore
1990, pp. 40-58.
Nadler, W., Brünger, A., Schulten, K., & Karplus, M., Molecular
and stochastic dynamics of proteins, in: Bohr, H., (ed.) Characterising
complex systems, World Scientific, Singapore 1990, pp. 80-93.
Ebeling, M., & Nadler, W., Analysis of structure prediction strategies
in a minimalist model of protein folding, in: Grassberger, P., Barkema,
G. & Nadler, W. (eds.), Monte Carlo approach to biopolymers and protein
folding, (World Scientific, Singapore, 1998), p. 228-241.
Frauenkron, H., Bastolla, U., Gerstner, E., Grassberger, P., &
Nadler, W., Testing a new Monte Carlo strategy for folding model proteins,
in: Grassberger, P., Barkema, G. & Nadler, W. (eds.), Monte Carlo approach
to biopolymers and protein folding, (World Scientific, Singapore, 1998),
p. 272-288.
Gerstner, E., Grassberger, P. & Nadler, W., Heteropolymer folding
in the two-dimensional HAP model, in: Grassberger, P., Barkema, G. &
Nadler, W. (eds.), Monte Carlo approach to biopolymers and protein folding,
(World Scientific, Singapore, 1998), p. 283-300.
Grassberger, P., Frauenkron, H., & Nadler, W., PERM: A Monte
Carlo strategy for simulating polymers and other things, in: Grassberger,
P., Barkema, G. & Nadler, W. (eds.), Monte Carlo approach to biopolymers
and protein folding, (World Scientific, Singapore, 1998), p. 301-315.
Grassberger, P., Nadler, W., 'Go with the Winners' simulations,
in: Hoffmann, K. H., Schreiber, M. (eds.), Computational Statistical Physics
- From Billiards to Monte Carlo (Springer, Berlin, 2002) pp. 169 -190.
Books
Grassberger, P., Barkema, G. & Nadler, W. (eds.), Monte Carlo approach
to biopolymers and protein folding, (World Scientific, Singapore,
1998).