Oreste was born in Tres Arroyos, Argentina, at the heart of the best food supply for mankind. He studied at the Universidad Nacional de La Plata from which he also got his PhD working on the chaotic behavior of nonlinear relaxation oscillators. He was a Visiting Scholar at University of Chicago for two years and a Senior Scientist at both Brookhaven Nationa Lab (for another year) and at Queen Mary, University of London for another two. His main area of expertise is Nonlinear Dynamics and Chaos, and he have applied this knowledge to a broad range of problems in different fields, such as biology and biophysics, fluid dynamics both at the laboratory and geophysical scales, electronics, quantum physics, etc. Some of the specific problems that he is currently interested in are the role of fluid dynamics in embryology and development, the motion of small particles organisms in fluids, the dynamics of hearing and the behavior of excitable systems and media in nature.
Education
Ph.D. Physics | Universidad Nacional de la Plata
M.S. Physics | Universidad Nacional de la Plata
Oreste’s Group Publications
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References
[1]
V. M. Eguiluz, E. Hernandez-Garcia, and O. Piro, Boundary-Forced Spatial Chaos, in (Kluwer academic publishers, Dordrecht, 2004), pp. 205–212.
[2]
S. Barland, O. Piro, M. Giudici, J. R. Tredicce, and S. Balle, Experimental evidence of van der pol-fitzhugh-nagumo dynamics in semiconductor optical amplifiers, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 68, 036209 (2003).
[3]
V. M. Eguíluz, E. Hernández-García, O. Piro, and K. Klemm, Effective dimensions and percolation in hierarchicaly structured scale-free networks, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 68, 055102 (1 (2003).
[4]
J. H. E. Cartwright, D. L. González, O. Piro, and Domenico. Stanzial, Aesthetics, dynamics, and muscial scales: A golden connection., Journal of New Music Research 31, 51 (2002).
[5]
D. R. Chialvo, O. Calvo, D. L. Gonzalez, O. Piro, and G. V. Savino, Subharmonic stochastic synchronization and resonance in neuronal systems., Invalid Journal 65, 050902(R)(1 (2002).
[6]
J. H. E. Cartwright, M. Magnasco, and O. Piro, Noise and inertia-induced inhomogeneity in the distribution of small particles in fluid flows, Chaos 12, 489 (2002).
[7]
J. H. E. Cartwright, M. Magnasco, and O. Piro, Bailout embeddings, targeting of KAM orbits,and the control of hamiltonian chaos, Invalid Journal 65, 045203(R) (2002).
[8]
Z. Neufeld, C. Lopez, E. Hernandez-Garcia, and O. Piro, Excitable media in open and closed chaotic flows, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 66, 066208(1 (2002).
[9]
A. I. V. Julyan H. E. Cartwright Oreste Piro, Pattern formation in solutal convection: Vermiculated rolls and isolated cells., Physica A 314, 291 (2002).
[10]
C. Lopez, E. Hernandez-Garcia, O. Piro, A. Vulpiani, and E. Zambianchi, Population dynamics advected by chaotic flows: A discrete-time map approach., Chaos 11, 397 (2001).
[11]
I. Sendiña-Nadal, V. Pérez-Muñuzuri, V. M. Eguíluz, E. Hernández-García, and P. Oreste, Quasiperiodic patterns in boundary-modulated excitable waves, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 64, 046208 (1 (2001).
[12]
R. Toral, C. Mirasso, E. Hernández-García, and O. Piro, Analytical and numerical studies of noise-induced synchronization of chaotic systems, Chaos 11, 665 (2001).
[13]
V. M. Eguiluz, E. Hernandez-Garcia, and O. Piro, Complex ginzburg-landau equation in the presence of walls and corners, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 64, 036205 (1 (2001).
[14]
J. H. E. Cartwright, D. L. González, and O. Piro, Pitch perception: A dynamical perspective., Proceedings of the National Academy of Sciences of the United States of America 98, 4855 (2001).
[15]
C. M. y. O. Piro. Duarte, Interdisciplinary challenges and bottlenecks in the aquatic sciences., Invalid Journal 10, 57 (2001).
[16]
E. H.-G. Raul Toral Claudio R. Mirasso and O. Piro, Synchronization of chaotic systems by common random forcing, Invalid Journal 255 (2000).
[17]
O. P. M. G. Zimmermann R. Toral, Stochastic spatiotemporal intermittency and noise-induced transition to an absorbing phase, Physical Review Letters 85, 3612 (2000).
[18]
V. M. Eguiluz, E. Hernandez-Garcia, and O. Piro, Boundary effects in extended dynamical systems, Physica A 283, 48 (2000).
[19]
O. Calvo, J. H. E. Cartwright, D. L. González, O. Piro, and F. Sportolari, Three-frequency resonances in coupled phase-locked loops, Invalid Journal 47, 491 (2000).
[20]
A. Babiano, J. H. E. Cartwright, O. Piro, and A. Provenzale, Dynamics of a small neutrally buoyant sphere in a fluid and targeting in hamiltonian systems, Physical Review Letters 84, 5764 (2000).
[21]
J. H. E. Cartwright, M. Feingold, and O. Piro, An introduction to chaotic advection, Invalid Journal 307 (1999).
[22]
V. M. Eguiluz, P. Alstrom, E. Hernandez-Garcia, and O. Piro, Average patterns of spatiotemporal chaos: A boundary effect, Invalid Journal 59, 2822 (1999).
[23]
V. M. Eguiluz, E. Hernandez-Garcia, and O. Piro, Boundary effects in the complex ginzburg-landau equation, International Journal of Bifurcation and Chaos 9, 2209 (1999).
[24]
C. J. H. E., D. L. González, and O. Piro, Universality in three-frequency resonances, Invalid Journal 59, 2902 (1999).
[25]
C. J. H. E., V. M. Eguíluz, E. Hernández-García, and O. Piro, Dynamics of elastic excitable media, Invalid Journal 9, 2197 (1999).
[26]
O. Calvo, J. H. E. Cartwright, D. L. González, O. Piro, and O. A. Rosso, Three-frequency resonances in dynamical systems, Invalid Journal 9, 2181 (1999).
[27]
V. M. Eguiluz, E. Hernandez-Garcia, O. Piro, and S. Balle, Frozen spatial chaos induced by boundaries, Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 60, 6571 (1999).
[28]
C. J. H. E., D. L. González, and O. Piro, Nonlinear dynamics of the perceived pitch of complex sounds, Physical Review Letters 82, 5389 (1999).
[29]
V. M. Eguíluz, E. Hernández-García, O. Piro, and S. Balle, Boundary induced frozen chaos, Anales de Física 4, 215 (1998).
[30]
C. J. H. E., D. L. González, and O. Piro, On a new nonlinear model for pitch perception, Invalid Journal 193 (1998).
[31]
O. Calvo, C. J. H. E., D. L. González, O. Piro, and F. Sportolari, Three-frequency dynamics of coupled phase-locked loops, Invalid Journal 91 (1998).
[32]
C. J. H. E., D. L. González, and O. Piro, On pitch perception of complex sounds: Nonlinearity revisited, Invalid Journal 141 (1998).
[33]
J. H. E. Cartwright, E. Hernández-García, and O. Piro, Burridge-knopoff models as elastic excitable media, Physical Review Letters 79, 527 (1997).
[34]
J. H. E. Cartwright, M. Feingold, and O. Piro, Chaotic advection in three-dimensional unsteady incompressible laminar flow, Invalid Journal 316, 259 (1996).
[35]
C. J. H. E., D. L. González, L. Morettini, O. Piro, O. Rosso, and F. Sportolari, Pitch perception of complex sounds: Nonlinearity revisited., Invalid Journal 319 (1995).
[36]
M. Feingold and O. Piro, Localized states in the chaotic ce atom, Invalid Journal 51, 4279 (1995).
[37]
J. H. E. Cartwright, M. Feingold, and O. Piro, Global diffusion in a realistic three-dimensional time-dependent nonturbulent fluid flow, Physical Review Letters 75, 3669 (1995).
[38]
J. H. E. Cartwright and O. Piro, Chaos in biology, Invalid Journal 18 (1995).
[39]
J. H. E. Cartwright, M. Feingold, and O. Piro, Passive scalars and three-dimensional liouvillian maps, Physica D 76, 22 (1994).
[40]
O. Rutman, M. Feingold, Y. Avishai, and O. Piro, Localization in quasi-1D systems: Perturbation theory and scaling, Invalid Journal 28, 329 (1994).
[41]
O. Piro, The object oriented programing paradigm in physics, Invalid Journal (1994).
[42]
G. A. Cecchi, D. L. González, M. O. Magnasco, G. B. Mindlin, O. Piro, and A. J. Santillán, Periodically kicked hard oscillators, Chaos 3, 51 (1993).
[43]
N. Buric, I. C. Percival, and O. Piro, Exact results on the critical function for the motion of an electron driven by two plane waves, Invalid Journal 165, 320 (1992).
[44]
N. Buric, J. H. E. Cartwright, I. C. Percival, and O. Piro, On modular smoothing and scaling functions for mode locking, Invalid Journal 163, 63 (1992).
[45]
J. H. E. Cartwright and O. Piro, The dynamics of runge-kutta methods, Invalid Journal 2, 427 (1992).
[46]
B. Hu, A. Valinia, and O. Piro, Universality and asymptotic limits of the scaling exponents in circle maps, Invalid Journal 144, 7 (1990).
[47]
M. Feingold, R. G. Littlejohn, J. S. Pehling, O. Piro, and S. B. Solina, Scars in billiards: The phase space approach, Invalid Journal 146, 199 (1990).
[48]
M. Feingold, D. L. González, M. O. Magnasco, and O. Piro, On the universality class dependence of period doubling indices, Invalid Journal 156, 272 (1990).
[49]
M. Feingold, L. P. Kadanoff, and O. Piro, Transport of passive scalars: KAM surfaces and difussion in three dimensional liouvillean maps, Invalid Journal (1989).
[50]
A. Campbell, A. González, D. L. González, O. Piro, and H. A. Larrondo, Isochrones and the dynamics of kicked oscillators, Physica A 155, 565 (1989).
[51]
D. L. González, O. Piro, G. Savino, and J. Valentinuzi, Evidences of chaotic dynamics in driven toad ventricles, Invalid Journal 56, 273 (1989).
[52]
M. Feingold, D. Leitner, and O. Piro, Semiclassical structure of hamiltonians and localization, Invalid Journal 144, 7 (1989).