Publications
Thesis
- T.J. Lewis,
The Effects of Nonexcitable Regions on Signal Propagation in Excitable
Media: Propagation Failure and Reflection. Ph.D. thesis, University
of Utah, Salt Lake City, UT. December 1998.
PDF.
Papers
- S.J. Cruikshank, T.J. Lewis and B.W. Connors (2007)
Synaptic basis for intense thalamo-cortical activation of feedforward inhibitory cells in neocortex.
Nature Neurosci. 10: 462-468.
PDF reprint.
Faculty of 1000 Review .
- J.G. Mancilla, T.J. Lewis, D.J. Pinto, J. Rinzel and B.W. Connors (2007)
Synchronization of electrically coupled pairs of inhibitory interneurons in neocortex.
J. Neurosci. 27: 2058-2073.
PDF reprint.
- A.R. Schneider, T.J. Lewis and J. Rinzel (2006)
Effects of correlated input and electrical coupling on synchrony in fast-spiking cell networks.
Neurocomput. 69: 1125-1129.
PDF reprint.
- C.P. Fall, T.J. Lewis and J.Rinzel (2005)
Background activity dependent properties of a network model for
working memory that incorporates cellular bistability.
Biol. Cybern. 93:109-118.
PDF reprint.
- A. Bose, T.J. Lewis and R.J.A. Wilson (2005)
Two-oscillator model of ventilatory rhythmogenesis in the frog.
Neurocomput. 65:751-757.
PDF reprint.
- R. Jolivet, T.J. Lewis and W. Gerstner (2004) Generalized
integrate-and-fire models of neuronal activity approximate spike
trains of a detailed model to a high degree of accuracy.
J. Neurophysiol. 92:959-976.
PDF reprint.
- T.J. Lewis and J. Rinzel (2004) Dendritic Effects in
Networks of Fast-Spiking Interneurons Connected by Electrical Coupling.
Neurocomput. 58:145-150.
PDF reprint.
- R. Jolivet, T.J. Lewis and W. Gerstner (2003) The Spike
Response Model: a framework to predict neuronal spike train with high
reliability, In O. Kaynak, E. Alpaydin, E. Oja and L. Xu Eds.:
Artificial Neural Networks and Neural Information Processing -
ICANN/ICONIP 2003 , LNCS 2714, Springer-Verlag, pp. 846-853.
- T.J. Lewis (2003)
Phase-locking in electrically coupled non-leaky integrate-and-fire neurons.
Discrete Contin. Dyn. Syst. Ser. B
Supplement Vol.: 554-562.
PDF reprint.
- T.J. Lewis and J. Rinzel (2003)
Dynamics of spiking neurons connected by both inhibitory and electrical
coupling. J.Comput.Neurosci. 14: 283-309.
PDF reprint.
Faculty of 1000 Review .
- T.J. Lewis and J. Rinzel (2001) Topological target patterns and
population oscillations in a network with random gap junctional
coupling. Neurocomput. 38: 763-761.
PDF reprint. (non-reviewed).
- T.J. Lewis and J. Rinzel
(2000) Self-organized synchronous oscillations in a network of
excitable cells coupled by gap junctions.
Network: Comput. Neural Syst. 11: 299-320.
PDF reprint.
- T.J. Lewis and J.P. Keener (2000)
Wave-block in excitable media due to regions of depressed
excitability. SIAM J.Appl.Math. 61: 293-316.
PDF reprint.
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J. P. Keener and T.J. Lewis (1999)
The biphasic mystery: Why a biphasic shock is more effective than
a monophsic shock for defibrillation.
J.Theor.Biol. 200(1): 1-17.
PDF reprint.
- T.T. Harkins, T.J. Lewis and J.E. Lindsley (1998)
Pre-steady Analysis of ATP Hydrolysis by DNA Topoisomerase II.
Biochemistry. 37: 7299-7312.
PDF reprint.
- P. Rohani, T.J. Lewis, D. Grunbaum and G.D. Ruxton (1997)
Spatial self-organization in ecology: pretty pictures or robust reality?
Trends in Ecology and Evolution 12: 70-74.
- M.R. Guevara and T.J. Lewis (1995) A minimal single-channel model
for the regularity of beating in the sinoatrial node. Chaos
5: 174-183.
PDF reprint.
- T.J. Lewis and M.R. Guevara (1991). 1/f^a power spectrum
does not imply fractal activation of the ventricles. Biophys.J.
60: 1297-1300.
PDF reprint.
- T.J. Lewis and M.R. Guevara (1990) Chaotic dynamics in a model
of the propagated cardiac action potential. J.theor.Biol. 142:
407-432.
abstract.