Rodrigo Soto

Email: rsoto@dfi.uchile.cl

Dirección: Blanco Encalada 2008

Fono: 9784520

Cargo: Profesor Titular

Pagina Web

Lineas de Investigación

Mecánica estadística:
Propiedades de transporte fuera del equilibrio
Materia activa
Materiales heterógeneos y desordenados
Sistemas particulados

Materia activa:
Suspensiones activas (baños bacteriales)
Coloides activos
Dinámica de tejidos y migración celular

Medios granulares:
Flujos granulares rápidos
Flujos densos
Sistemas confinados

Fisica computacional:
Simulación de medios granulares densos
Simulación eficiente de suspensiones bacterianos

Publicaciones

Book: Kinetic Theory and Transport Phenomena
Oxford University Press (2016)
Master Series in Physics
Rodrigo Soto
More information: table of contents, errata sheet, reviews, solution manual

Recent Publications
Researcher ID D-7322-2011
Google ID

Wetting transitions displayed by persistent active particles
N Sepúlveda, R Soto
Physical Review Letters 119, 078001 (2017)

GPU parallel simulation algorithm of Brownian particles with excluded volume using Delaunay triangulations
F Carter, N Hitschfeld, C Navarro, R Soto
arXiv preprint arXiv:1703.02484 (2017)

Thermal design exploration of a swirl flow microchannel heat sink for high heat flux applications based on numerical simulations
B Herrmann-Priesnitz, WR Calderón-Muñoz, A Valencia, R Soto
Applied Thermal Engineering 109, 22-34 (2016)

Coarsening and clustering in run-and-tumble dynamics with short-range exclusion
N Sepúlveda, R Soto
Physical Review E 94, 022603 (2016)

Dynamics of noncohesive confined granular media
N Mujica, R Soto
Recent Advances in Fluid Dynamics with Environmental Applications, 445-463 (2016)

Effect of the vibration profile on shallow granular systems
P Cordero, D Risso, R Soto
Phil. Trans. R. Soc. A 373 (2056), 20150116 (2015)

Relaxation processes after instantaneous shear rate reversal in a dense granular flow
E. Rojas, M. Trulsson, B. Andreotti, E. Clement and R. Soto, EPL 109, 64002 (2015)

Self-assembly of Active Colloidal Molecules with Dynamic Function
Rodrigo Soto and Ramin Golestanian
Phys. Rev. E 91, 052304 (2015)

Universality and criticality of a second-order granular solid-liquid-like phase transition
G. Castillo, N, Mujica, and R. Soto
Phys. Rev. E 91, 012141 (2015)

Shear viscosity of a model for confined granular media
R. Soto, D. Risso, and R. Brito
Phys. Rev. E 90, 062204 (2014)

Casimir effect in swimmer suspensions
C. Parra-Rojas and R. Soto
Phys. Rev. E 90, 013024 (2014)

Dynamics of a first-order transition to an absorbing state
B. Néel, I. Rondini, A. Turzillo, N. Mujica, and R. Soto
Phys. Rev. E 89, 042206 (2014)

Self-assembly of catalytically active colloidal molecules: Tailoring activity through surface chemistry
Rodrigo Soto and Ramin Golestanian
Phys. Rev. Lett. 112, 068301 (2014)

Run-and-tumble in a crowded environment: persistent exclusion process for swimmers
Rodrigo Soto and Ramin Golestanian
Phys. Rev. E 89, 012706 (2014)

Active temperature and velocity correlations produced by a swimmer suspension
C. Parra-Rojas and R. Soto
Phys. Rev. E 87, 053022 (2013)

Subdiffusive behavior of a dilute non-Brownian suspension under shear
Francisca Guzman-Lastra and Rodrigo Soto
Phys. Rev. E 87, 042311 (2013)

Hydrodynamic modes in a confined granular fluid
R. Brito, D. Risso, and R. Soto
Phys. Rev. E 87, 022209 (2013)

Induced Diffusion of Tracers in a Bacterial Suspension: Theory and Experiments
G. L. Miño, J. Dunstan, A. Rousselet, E. Clement, and R. Soto
J. Fluid Mech. 729, 423 (2013)

Capillarylike fluctuations of a solid-liquid interface in a noncohesive granular system
L.-H. Luu, N. Mujica, and R. Soto
Phys. Rev. E 87, 040202(R) (2013)

Stochastic resonance on the transverse displacement of swimmers in an oscillatory shear flow
Francisca Guzman-Lastra and Rodrigo Soto
Phys. Rev. E 86, 037301 (2012)

Fluctuations and Criticality of a Granular Solid-Liquid-like Phase Transition
G. Castillo, N. Mujica, and R. Soto
Phys. Rev. Lett. 109, 095701 (2012)

Numerical computation of Casimir forces via stochastic quantization
Pablo Rodriguez-Lopez, Ricardo Brito and Rodrigo Soto
Int. J. Mod. Phys. Conf. Ser. 14, 485 (2012)

Characterization of the energy bursts in vibrated shallow granular systems
N. Rivas, P. Cordero, D. Risso, and R. Soto
Gran. Matt. 14, 157 (2012)

A two-sphere model for bacteria swimming near solid surfaces
Jocelyn Dunstan, Gastón Miño, Eric Clement, Rodrigo Soto
Phys. Fluids 24, 011901 (2012)

Stochastic Quantization and Casimir Forces
Pablo Rodriguez-Lopez, Ricardo Brito, and Rodrigo Soto
Erophys. Lett. 96, 50008 (2011)

Energy bursts in vibrated shallow granular systems
N. Rivas, D. Risso, R. Soto, and P. Cordero
AIP Conf. Proc. 1332, 184 (2011). NONEQUILIBRIUM STATISTICAL PHYSICS TODAY: Proceedings of the 11th Granada Seminar on Computational and Statistical Physics

Segregation in quasi two-dimensional granular system
Nicolás Rivas, Patricio Cordero, Dino Risso, and Rodrigo Soto
New J. Phys. 13, 055018 (2011)

Characterization of the Melting Transition in Two Dimensions at Vanishing External Pressure Using Molecular Dynamics Simulations
Daniel Asenjo, Fernando Lund, Simón Poblete, Rodrigo Soto, Marcos Sotomayor
Phys. Rev. B 83, 174110 (2011)

Sudden chain energy transfer events in vibrated granular media
N. Rivas, S. Ponce, B. Gallet, D. Risso, R. Soto, P. Cordero, and N. Mujica
Phys. Rev. Lett. 106, 088001 (2011)

Enhanced diffusion due to active swimmers at a solid surface
G. Miño, T.E. Mallouk, T. Darnige, M. Hoyos, J. Dauchet, J. Dunstan, R. Soto, Y. Wang, A. Rousselet, and E. Clement
Phys. Rev. Lett. 106, 048102 (2011)

Dynamical approach to the Casimir effect
P. Rodriguez-Lopez, R. Brito, and R. Soto
Phys. Rev. E 83, 031102 (2011)

Extended event driven molecular dynamics for simulating dense granular matter
S. Gonzalez, D. Risso, and R. Soto
Eur. Phys. J. Special Topics 179, 33 (2009)

Competition of Brazil nut effect, buoyancy, and inelasticity induced segregation in a granular mixture
R.Brito and R. Soto
Eur. Phys. J. Special Topics 179, 207 (2009)

Brazil nut effect: Influence of friction and jamming on the transition line
Patricio Cordero, Sergio Godoy, Dino Risso and Rodrigo Soto
Modeling and simulation of new materials: AIP Conference Proceedings Volume 1091 (Springer, 2009) Tenth Granada Lectures, pp 124-133

Violation of the action-reaction principle and self-forces induced by nonequilibrium fluctuations
P. Buenzli and R. Soto
Phys. Rev. E 78, 020102(R) (2008)

Rise of a Brazil nut: A transition line
S. Godoy, D. Risso, R. Soto, and P. Cordero
Phys. Rev. E 78, 031301 (2008)

Segregation induced by inelasticity in a vibrofluidized granular mixture
R. Brito, H. Enríquez, S. Godoy, and R. Soto
Phys. Rev. E 77, 061301 (2008)

Casimir forces in granular and other non equilibrium systems
R.Brito, R. Soto, and U. Marini Bettolo Marconi
Granular Matter 10 29 (2007)

Generalized Casimir forces in nonequilibrium systems
R.Brito, U. Marini Bettolo Marconi, and R. Soto
Phys. Rev. E 76 0111113 (2007)

Ring approximation at equilibrium: The hard sphere pair correlation function
Jaroslaw Piasecki and Rodrigo soto
Physica A 379 409 (2007)

Confined suspension jet and long-range hydrodynamic interactions: A destabilization scenario
Alejandra Alvarez, Eric Clement, and Rodrigo Soto
Phys. Fluids 18 083301 (2006)

Fluctuation-Induced Casimir Forces in Granular Fluids
C. Cattuto, R. Brito, U. Marini Bettolo Marconi, F. Nori, R. Soto
Phys. Rev. Letters 96 178001 (2006)

Hydrodynamic boundary condition in vibrofluidized granular systems
Rodrigo Soto and M. Malek Mansour
Physica A 369 301 (2006)

Approach to a non-equilibrium steady state
Jaroslaw Piasecki and Rodrigo Soto
Physica A 369 379 (2006)

Thesis students

Cluster de computacion cientifica
Manual e instrucciones de uso


Tesistas actuales y recientes:

  • Héctor Ramos. Doctorado en Física. Proyecto de investigación: Medición de bandas de corte en medios granulares.
  • Fernanda Perez. Magíster en Física. Proyecto de investigación: Dinámica de epitelios traccionados con esfuerzos activos.
  • Gabriel Ramos. Doctorado en Física. Tesis: Estudio de la dinámica de micronadadores confinados en una gota: desde la microactividad al macromovimiento
  • Susana Marquez: Magíster en Física. Tesis: Modelo físico de la durotaxis en células con morfología no polarizada
  • Marcelo Guzman, Magíster en Física. Tesis: Reología no ideal de una suspensión de bacterias
  • Eduardo Rojas, Doctorado en Fluidodinámica. Tesis: Reología de medios granuales densos con dependencia temporal (Graduado 2015)
  • Francisca Guzmán, Doctorado en Fluidodinámica. Tesis: Difusión en suspensiones activas y pasivas (Graduada 2012)
  • Cesar Parra, Magíster en Física. Tesis: Fuerzas de Casimir en suspensiones bacterianas (Graduado 2012)
  • Lissette Cabrera, Ingeniería en Computación. Memoria: Visualizador de sistemas de partículas en 2D y 3D (Graduada 2012)
  • Nicolás Rivas, Magíster en Física. Tesis: Segregación en una superficie granular vibrada (Graduado 2011)
  • Jocelyn Dunstan, Magíster en Física. Tesis: Modelo hidrodinámico de bacterias interactuando con superficies y partículas micrométricas (Graduada 2010)

 

Comparte en...Share on FacebookTweet about this on Twitter