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Publications

22. A model of spatial learning in hippocampus via spike-time dependent plasticity.
Panagiota Theodoni and Alex Roxin [preprint] 

21. Oscillations in the bistable regime of neuronal networks.
Alex Roxin and Albert Compte [Preprint] 

20. Mean-field equations for neuronal networks with arbitrary degree distributions.
Duane Nykamp, Albert Compte and Alex Roxin [Preprint] 

19. A computational model of major depression: the role of glutamate dysfunction on cingulo-frontal network dynamics.
J. P. Ramirez-Mahaluf, Alex Roxin, Helen S. Mayberg and Albert Compte,
Cereb. Cortex, doi: 10.1093/bhv249 1-20 (2015).[pdf]

18. Macroscopic description for networks of spiking neurons.
Ernest Montbrió, Diego Pazó and Alex Roxin.
Phys. Rev. X 5, 021028 (2015).[pdf]


17. Sensory integration dynamics in a hierarchical network explains choice probabilities in cortical area MT.

Klaus Wimmer, Albert Compte, Alex Roxin, Diogo Peixoto, Alfonso Renart and Jaime de la Rocha
Nature Communications 6:6177 | DOI: 10.1038/ncomms717 (2015).[pdf]


16. Efficient partitioning of memory systems and its importance for memory consolidation.

Alex Roxin and Stefano Fusi
PLoS Comp. Biol.  DOI: 10.1371/journal.pcbi.1003146 (2013).[pdf]

15. On the distribution of firing rates in networks of cortical neurons.

Alex Roxin, Nicolas Brunel, David Hansel, Gianluigi Mongillo, Carl van Vreeswijk
The Journal of Neuroscience 31(45), 16217-16226 (2011).[pdf] 

14. The role of degree distribution in shaping the dynamics in networks of sparsely connected spiking neurons.

Alex Roxin
Frontiers in Computational Neuroscience 5:8 (2011).[pdf] 

13. How effective delays shape oscillatory dynamics in neuronal networks.

Alex Roxin and Ernest Montbrio
Physica D 240, 323-345 (2011).[pdf] 

12. Liquid slip at the molecular scale
,
Tom B. Sisan, Taeil Ti, Alex Roxin and Seth Lichter
Handbook of Nanophysics, Klaus Sattler Editor (2010). 

11. The statistics of repeating patterns of cortical activity can be reproduced by a model network of stochastic binary neurons.

Alex Roxin, Nicolas Brunel and Vincent Hakim
The Journal of Neuroscience 28(42), 10734-10745 (2008).[pdf],supplementary info 

10. Neurobiological models of two-choice decision making can be reduced to a one-dimensional nonlinear diffusion equation.

Alex Roxin and Anders Ledberg
PLoS Computational Biology 4(3), e1000046 (2008).[pdf],supplementary info 

9. Molecular mechanisms of liquid slip.
A. Martini, Alex Roxin, R.Q. Snurr, Q. Wang and Seth Lichter
Journal of Fluid Mechanics 600, 257-269 (2008).[pdf] 

8. Multiple attractors, long chaotic transients and failure in small-world networks of excitable neurons.

Hermann Riecke, Alex Roxin, Santiago Madruga and Sara Solla
Chaos 17, 026110 (2007).[pdf] 

7. Rate models with delays and the dynamics of large networks of spiking models.,
Alex Roxin, Nicolas Brunel, David Hansel
Progress of Theoretical Physics Supplement 161, 68-85 (2006).[pdf] 

6. Conditional dendritic spike propagation following distal synaptic activation of hippocampal CA1 pyramidal neurons.
Tim Jarsky*, Alex Roxin*, William Kath and Nelson Spruston (*equal contribution)
Nature Neuroscience 8(2), 1667-1676 (2005).[pdf] 

5. Role of delays in shaping spatiotemporal dynamics of neuronal activity in large networks.

Alex Roxin, Nicolas Brunel, David Hansel,
Phys. Rev. Lett. 94, 238103 (2005).[pdf] 

4. Self-sustained activity in a Small-World network of excitable neurons.

Alex Roxin, Hermann Riecke, Sara Solla,
Phys. Rev. Lett. 92, 198101 (2004).[pdf] 

3. Mechanisms for liquid slip at solid surfaces.

Seth Lichter, Alex Roxin, Shreyas Mandre,
Phys. Rev. Lett. 93, 086001 (2004).[pdf] 

2. Rotating convection in an anisotropic system.

Alex Roxin, Hermann Riecke,
Phys. Rev. E 65, 046219 (2002).[pdf] 

1. Destabilization and localization of traveling waves by an advected field.

Alex Roxin, Hermann Riecke,
Physica D 156, 19-38 (2001).[pdf]