|
| 677. Multilevel summation with B-spline interpolation for pairwise
interactions in molecular dynamics simulations.
David J. Hardy, Matthew A. Wolff, Jianlin Xia, Klaus Schulten, and Robert D.
Skeel.
Journal of Chemical Physics, 144:114112, 2016.
(16 pages).
|
| 619. Structure, function, and quantum dynamics of pigment-protein
complexes.
Ioan Kosztin and Klaus Schulten.
In Masoud Mohseni, Yasser Omar, Greg Engel, and Martin B. Plenio,
editors, Quantum Effects in Biology, pp. 123-143. Cambridge University
Press, 2014.
|
| 615. A computational kinetic model of diffusion for molecular systems.
Ivan Teo and Klaus Schulten.
Journal of Chemical Physics, 139:121929, 2013.
(15 pages).
|
| 611. The FMO complex in a glycerol-water mixture.
Mortaza Aghtar, Johan Strümpfer, Carsten Olbrich, Klaus Schulten, and
Ulrich Kleinekathoefer.
Journal of Physical Chemistry B, 117:7157-7163, 2013.
|
| 591. Vibrationally assisted electron transfer mechanism of olfaction: Myth
or reality?
Ilia A. Solov'yov, Po-Yao Chang, and Klaus Schulten.
Physical Chemistry - Chemical Physics, 14:13861-13871, 2012.
|
| 590. Excited state dynamics in photosynthetic reaction center and light
harvesting complex 1.
Johan Strümpfer and Klaus Schulten.
Journal of Chemical Physics, 137:065101, 2012.
(8 pages).
|
| 587. Open quantum dynamics calculations with the hierarchy equations of
motion on parallel computers.
Johan Strümpfer and Klaus Schulten.
Journal of Chemical Theory and Computation, 8:2808-2816, 2012.
|
| 583. Juxtaposing density matrix and classical path-based wave packet
dynamics.
Mortaza Aghtar, Jörg Liebers, Johan Strümpfer, Klaus Schulten, and
Ulrich Kleinekathöfer.
Journal of Chemical Physics, 136:214101, 2012.
(9 pages).
|
| 569. Theory and simulation of the environmental effects on FMO
electronic transitions.
Carsten Olbrich, Johan Strümpfer, Klaus Schulten, and Ulrich
Kleinekathoefer.
Journal of Physical Chemistry Letters, 2:1771-1776, 2011.
|
| 562. Theoretical and computational investigation of flagellin
translocation and bacterial flagellum growth.
David E. Tanner, Wen Ma, Zhongzhou Chen, and Klaus Schulten.
Biophysical Journal, 100:2548-2556, 2011.
|
| 544. The light-harvesting apparatus in purple photosynthetic bacteria,
introduction to a quantum biological device.
Johan Strümpfer, Jen Hsin, Melih Sener, Danielle Chandler, and Klaus
Schulten.
In Benoit Roux, editor, Molecular Machines, chapter 2, pp.
19-48. World Scientific Press, 2011.
|
| 514. Light harvesting complex II B850 excitation dynamics.
Johan Strümpfer and Klaus Schulten.
Journal of Chemical Physics, 131:225101, 2009.
(9 pages).
|
| 466. Length dependent optical effects in single walled carbon nanotubes.
Aruna Rajan, Michael S. Strano, Daniel A. Heller, Tobias Hertel, and Klaus
Schulten.
Journal of Physical Chemistry B, 112:6211-6213, 2008.
|
| 452. Continuous fluorescence microphotolysis and correlation spectroscopy
using 4Pi microscopy.
Anton Arkhipov, Jana Hüve, Martin Kahms, Reiner Peters, and Klaus Schulten.
Biophysical Journal, 93:4006-4017, 2007.
|
| 443. Secondary and tertiary structure elasticity of titin Z1Z2 and a
titin chain model.
Eric H. Lee, Jen Hsin, Olga Mayans, and Klaus Schulten.
Biophysical Journal, 93:1719-1735, 2007.
|
| 440. Magnetic field effects in Arabidopsis thaliana cryptochrome-1.
Ilia A. Solov'yov, Danielle E. Chandler, and Klaus Schulten.
Biophysical Journal, 92:2711-2726, 2007.
|
| 433. Molecular dynamics methods for bioelectronic systems in
photosynthesis.
Ioan Kosztin and Klaus Schulten.
In Thijs Aartsma and Joerg Matysik, editors, Biophysical
Techniques in Photosynthesis II, volume 26 of Advances in
Photosynthesis and Respiration, pp. 445-464. Springer, Dordrecht, 2008.
|
| 411. Modeling DNA loops using the theory of elasticity.
Alexander Balaeff, L. Mahadevan, and Klaus Schulten.
Physical Review E, 73:031919, 2006.
(23 pages).
|
| 403. Ion-nanotube terahertz oscillator.
Deyu Lu, Yan Li, Umberto Ravaioli, and Klaus Schulten.
Physical Review Letters, 95:246801, 2005.
(4 pages).
|
| 396. Comparison of the light harvesting networks of plant and
cyanobacterial photosystem I.
Melih K. Sener, Craig Jolley, Adam Ben-Shem, Petra Fromme, Nathan Nelson,
Roberta Croce, and Klaus Schulten.
Biophysical Journal, 89:1630-1642, 2005.
|
| 390. Empirical nanotube model for biological applications.
Deyu Lu, Yan Li, Umberto Ravaioli, and Klaus Schulten.
Journal of Physical Chemistry B, 109:11461-11467, 2005.
|
| 382. Physical principles of efficient excitation transfer in light
harvesting.
Melih Sener and Klaus Schulten.
In David L. Andrews, editor, Energy Harvesting Materials, pp.
1-26. World Scientific, Singapore, 2005.
|
| 377. Finite-size effect and wall polarization in a carbon nanotube
channel.
Deyu Lu, Yan Li, Slava V. Rotkin, Umberto Ravaioli, and Klaus Schulten.
Nano Letters, 4:2383-2387, 2004.
|
| 376. Fluctuation-driven molecular transport through an asymmetric membrane
channel.
Ioan Kosztin and Klaus Schulten.
Physical Review Letters, 93:238102, 2004.
(4 pages).
|
| 366. Electronic structure and dielectric behavior of finite-length
single-walled carbon nanotubes.
Yan Li, Deyu Lu, Slava V. Rotkin, Klaus Schulten, and Umberto Ravaioli.
In Proceedings of the Fourth IEEE Conference on Nanotechnology,
pp. 273-275, Munich, Germany, 2004.
|
| 362. Multi-scale method for simulating protein-DNA complexes.
Elizabeth Villa, Alexander Balaeff, L. Mahadevan, and Klaus Schulten.
Multiscale Modeling and Simulation, 2:527-553, 2004.
|
| 359. Excitation migration in trimeric cyanobacterial photosystem I.
Melih K. Sener, Sanghyun Park, Deyu Lu, Ana Damjanović, Thorsten Ritz,
Petra Fromme, and Klaus Schulten.
Journal of Chemical Physics, 120:11183-11195, 2004.
|
| 356. Calculating potentials of mean force from steered molecular dynamics
simulations.
Sanghyun Park and Klaus Schulten.
Journal of Chemical Physics, 120:5946-5961, 2004.
|
| 353. Modeling DNA loops using continuum and statistical mechanics.
Alexander Balaeff, Christophe R. Koudella, L. Mahadevan, and Klaus Schulten.
Philosophical Transactions of the Royal Society of London A. (Mathematical, Physical and Engineering Sciences), 362:1355-1371, 2004.
|
| 342. Free energy calculation from steered molecular dynamics simulations
using Jarzynski's equality.
Sanghyun Park, Fatemeh Khalili-Araghi, Emad Tajkhorshid, and Klaus Schulten.
Journal of Chemical Physics, 119:3559-3566, 2003.
|
| 339. Reaction paths based on mean first-passage times.
Sanghyun Park, Melih K. Sener, Deyu Lu, and Klaus Schulten.
Journal of Chemical Physics, 119:1313-1319, 2003.
|
| 331. Robustness and optimality of light harvesting in cyanobacterial
photosystem I.
Melih K. Sener, Deyu Lu, Thorsten Ritz, Sanghyun Park, Petra Fromme, and
Klaus Schulten.
Journal of Physical Chemistry B, 106:7948-7960, 2002.
|
| 320. Excitons in a photosynthetic light-harvesting system: A combined
molecular dynamics, quantum chemistry and polaron model study.
Ana Damjanović, Ioan Kosztin, Ulrich Kleinekathoefer, and Klaus Schulten.
Physical Review E, 65:031919, 2002.
(24 pages).
|
| 315. A general random matrix approach to account for the effect of static
disorder on the spectral properties of light harvesting systems.
Melih Sener and Klaus Schulten.
Physical Review E, 65:031916, 2002.
(12 pages).
|
| 290. Elastic rod model of a DNA loop in the lac operon.
Alexander Balaeff, L. Mahadevan, and Klaus Schulten.
Physical Review Letters, 83:4900-4903, 1999.
|
| 267. Expansion method for stationary states of quantum billiards.
David Kaufman, Ioan Kosztin, and Klaus Schulten.
American Journal of Physics, 67:133-141, 1999.
|
| 239. Boundary integral method for stationary states of two-dimensional
quantum systems.
Ioan Kosztin and Klaus Schulten.
Int. J. of Modern Phys. C, 8:293-325, 1997.
|
| 221. Probing protein motion through temperature echoes.
Klaus Schulten, Hui Lu, and Linsen Bai.
In Henrik Flyvbjerg, John Hertz, Mogens H. Jensen, Ole G. Mouritsen,
and Kim Sneppen, editors, Physics of Biological Systems: From Molecules
to Species, Lecture Notes in Physics, pp. 117-152. Springer, 1997.
|
| 220. Principal component analysis and long time protein dynamics.
Manel A. Balsera, Willy Wriggers, Yoshitsugu Oono, and Klaus Schulten.
Journal of Physical Chemistry, 100:2567-2572, 1996.
|
| 214. Curve crossing in a protein: Coupling of the elementary quantum
process to motions of the protein.
Klaus Schulten.
In D. Bicout and M. J. Field, editors, Proceedings of the Ecole
De Physique Des Houches, pp. 85-118, Paris, 1995. Les Editions de Physique,
Springer.
|
| 206. Diffusive hysteresis at high and low driving frequencies.
James Phillips and Klaus Schulten.
Physical Review E, 52:2473-2477, 1995.
|
| 201. Introduction to the diffusion Monte Carlo method.
Ioan Kosztin, Byron Faber, and Klaus Schulten.
American Journal of Physics, 64:633-644, 1996.
|
| 200. Velocity reassignment echoes in proteins.
Dong Xu and Klaus Schulten.
Journal of Chemical Physics, 103:3124-3139, 1995.
|
| 194. Noise-induced neuronal oscillations.
Christian Kurrer and Klaus Schulten.
Physical Review E, 51:6213-6218, 1995.
|
| 178. Topology representing networks.
Thomas Martinetz and Klaus Schulten.
Neural Networks, 7:507-522, 1994.
|
| 177. Dependence of percolation thresholds on lattice connectivity.
Christian Kurrer and Klaus Schulten.
Physical Review E, 48:614-617, 1993.
|
| 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, 1992.
|
| 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.
|
| 159. Textbook: Neural Computation and Self-Organizing Maps: An
Introduction.
Helge Ritter, Thomas Martinetz, and Klaus Schulten.
Addison-Wesley, New York, revised English edition, 1992.
|
| 138. A principle for the formation of the spatial structure of cortical
feature maps.
Klaus Obermayer, Helge Ritter, and Klaus Schulten.
Proceedings of the National Academy of Sciences, USA,
87:8345-8349, 1990.
|
| 137. Effect of noise and perturbations on limit cycle systems.
Christian Kurrer and Klaus Schulten.
Physica D, 50:311-320, 1991.
|
| 122. Textbook: Neuronale Netze: Eine Einführung in Die
Neuroinformatik Selbstorganisierender Abbildungen.
Helge Ritter, Thomas Martinetz, and Klaus Schulten.
Addison-Wesley, Bonn, second enlarged edition, 1990.
|
| 120. Propagation of chemical waves in discrete excitable media:
Anisotropic and isotropic wave fronts.
Christian Kurrer and Klaus Schulten.
In A. V. Holden, M. Markus, and H. G. Othmer, editors, Nonlinear
Wave Processes in Excitable Media, volume 244 of NATO Science
Series B: Physics, pp. 489-500. Plenum Press, New York, 1991.
|
| 115. Development of feature detectors by self-organization: A network
model.
Jeanne Rubner and Klaus Schulten.
Biological Cybernetics, 62:193-199, 1990.
|
| 110. Textbook: Neuronale Netze: Eine Einführung in Die
Neuroinformatik Selbstorganisierender Abbildungen.
Helge Ritter, Thomas Martinetz, and Klaus Schulten.
Addison-Wesley, Bonn, first edition, 1990.
|
| 104. Topology-conserving maps for learning visuo-motor-coordination.
Helge Ritter, Thomas Martinetz, and Klaus Schulten.
Neural Networks, 2:159-168, 1989.
|
| 97. Associative memory with high information content.
Joachim Buhmann, Robert Divko, and Klaus Schulten.
Physical Review A, 39:2689-2692, 1989.
|
| 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.
|
| 94. A static ensemble approximation for stochastically modulated quantum
systems.
Robert Bittl and Klaus Schulten.
Journal of Chemical Physics, 90:1794-1803, 1989.
|
| 62. On the stationary state of Kohonen's self-organizing sensory
mapping.
Helge Ritter and Klaus Schulten.
Biological Cybernetics, 54:99-106, 1986.
|
| 53. Noise induced limit cycles of the Bonhoeffer-van der Pol model
of neural pulses.
Herbert Treutlein and Klaus Schulten.
Berichte der Bunsengesellschaft - Physical Chemistry Chemical
Physics, 89:710-718, 1985.
|
| 51. Generalized moment expansion for Brownian relaxation processes.
Walter Nadler and Klaus Schulten.
Journal of Chemical Physics, 82:151-160, 1985.
|
| 50. The effect of intramolecular paramagnetic-diamagnetic exchange on
the magnetic field effect of radical pair recombination.
Klaus Schulten.
Journal of Chemical Physics, 82:1312-1316, 1985.
|
| 49. Continuous fluorescence microphotolysis to observe lateral diffusion
in membranes: Theoretical methods and applications.
Axel Brünger, Reiner Peters, and Klaus Schulten.
Journal of Chemical Physics, 82:2147-2160, 1985.
|
| 40. Ensemble averaged spin pair dynamics of doublet and triplet
molecules.
Klaus Schulten.
Journal of Chemical Physics, 80:3668-3679, 1984.
|
| 39. A network thermodynamic investigation of stationary and
non-stationary proton transport through proteins.
Axel Brünger, Zan Schulten, and Klaus Schulten.
Zeitschrift für Physikalische Chemie, NF136:1-63, 1983.
|
| 37. Generalized moment expansion for the Mössbauer spectrum of
Brownian particles.
Walter Nadler and Klaus Schulten.
Physical Review Letters, 51:1712-1715, 1983.
|
| 27. An efficient approach to CI: General matrix element formulas for
spin-coupled particle-hole excitations.
Paul Tavan and Klaus Schulten.
Journal of Chemical Physics, 72:3547-3576, 1980.
|
| 26. Reactions governed by a binomial redistribution process. The
Ehrenfest urn problem.
Klaus Schulten, Zan Schulten, and Attila Szabo.
Physica, 100A:599-614, 1980.
|
| 9. Quantum mechanical propensity rules for the transfer of angular
momentum in three-atom reactions.
Klaus Schulten.
Berichte der Bunsengesellschaft - Physical Chemistry Chemical
Physics, 81:166-168, 1977.
|
| 7. Recursive evaluation of 3j- and 6j-coefficients.
Klaus Schulten and Roy G. Gordon.
Computational Physics Communications, 11:269-278, 1976.
|
| 6. Quantum theory of angular momentum coupling in reactive collisions.
Klaus Schulten and Roy G. Gordon.
Journal of Chemical Physics, 64:2918-2938, 1976.
|
| 4. Semiclassical approximation to 3j- and 6j-coefficients for
quantum-mechanical coupling of angular momenta.
Klaus Schulten and Roy G. Gordon.
Journal of Mathematical Physics, 16:1971-1988, 1975.
|
| 3. Exact recursive evaluation of 3j- and 6j-coefficients for
quantum-mechanical coupling of angular momenta.
Klaus Schulten and Roy G. Gordon.
Journal of Mathematical Physics, 16:1961-1970, 1975.
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