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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]