Cristián Huepe - 北京师范大学

个人简介

教育经历 Ph.D. Physics, University of Paris, École Normale Supérieure, France, 1999 DEA (Diplôme d'Etudes Approfondies) Astrophysics, University of Paris, France, 1995 B.S. (Licenciatura) Physics, Universidad de Chile, Santiago, Chile, 1993 工作经历 Postdoctoral Researcher, University of Chicago (2000-2002) Postdoctoral Researcher, Northwestern University (2002-2005) Unaffiliated Researcher - NSF Grant PI, CHuepe Labs Inc (2005-2014) External Faculty / Visiting Scholar, Northwestern Institute on Complex Systems (2010-2014) External Researcher ,School of Systems Science, Beijing Normal University

研究领域

Present: Physics of Complex Systems; Nonequilibrium Systems; Nonlinear Dynamics; Statistical Physics; Soft Condensed Matter; Complex Networks; Physics of Living Systems; Self-Organization; Evolutionary Dynamics; Multi-Scale Processes; Active Matter; Collective Motion; Swarming and Flocking Systems; Art and Science; Complexity and Music. Past: Nonlinear Schrödinger Equation; Superfluids; Bose-Einstein Condensation; Nonlinear Klein-Gordon Equation; Toy Cosmological Models; Finite-Time Singularities; Spatiotemporal Chaos; Defect Dynamics; Faraday Waves

近期论文

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Noise-induced quenched disorder in dense active systems Contagion dynamics in self-organized systems of self-propelled agents Influence of online opinions and interactions on the Covid-19 vaccination in Chile Sheep lead the way Emergent Metric-like States of Active Particles with Metric-free Polar Alignment Contagion dynamics in self-organized systems of self-propelled agents Phases and homogeneous ordered states in alignment-based self-propelled particle models Contagion dynamics in self-organized systems of self-propelled agents Phases and homogeneous ordered states in alignment-based self-propelled particle models Contagion dynamics in self-organized systems of self-propelled agents Phases and homogeneous ordered states in alignment-based self-propelled particle models Order-Disorder Transitions in a Minimal Model of Active Elasticity Interaction network effects on position- and velocity-based models of collective motion Experimental capabilities and limitations of a position-based control algorithm for swarm robotics Hierarchical societies exhibit diverse swarming transitions Modular hierarchical and power-law small-world networks bear structural optima for minimal first passage times and cover time Modular hierarchical and power-law small-world networks bear structural optima for minimal first passage times and cover time Scale invariance in natural and artificial collective systems: A review Adaptive network models of collective decision making in swarming systems Scale-Free Correlations in Flocking Systems with Position-Based Interactions Elasticity-Based Mechanism for the Collective Motion of Self-Propelled Particles with Springlike Interactions: A Model System for Natural and Artificial Swarms Collective motion dynamics of active solids and active crystals Collective States, Multistability and Transitional Behavior in Schooling Fish Elasticity-driven collective motion in active solids and active crystals Self-Organized Flocking with a Mobile Robot Swarm: a Novel Motion Control Method Explicit and Implicit Directional Information Transfer inCollective Motion Early fragmentation in the adaptive voter model on directed networks Collective dynamics of self-propelled particles with variable speed Inferring the structure and dynamics of interactions in schooling fish Adaptive-network models of swarm dynamics Intrinsic and extrinsic noise effects on phase transitions of network models with applications to swarming systems New tools for characterizing swarming systems: A comparison of minimal models Intrinsic and extrinsic noise effects on the phase transition of swarming systems and related network models Flocking with informed agents Phase Transitions in Systems of Self-Propelled Agents and Related Network Models Forcing function control of Faraday wave instabilities in viscous shallow fluids How the form of the forcing function determines Faraday wave instabilities in shallow viscous fluids Statistics of defect trajectories in spatio-temporal chaos in inclined layer convection and the complex Ginzburg-Landau equation Intermittency and Clustering in a System of Self-Driven Particles Bifurcations in Attractive Bose-Einstein Condensates and Superfluid Helium Gross–Pitaevskii dynamics of Bose–Einstein condensates and superfluid turbulence Parametric Excitation of Surface Waves by an Impulsive Forcing Function Phase Transitions in Self-Driven Many-Particle Systems and Related Non-Equilibrium Models: A Network Approach Stability and Decay Rates of Non-Isotropic Attractive Bose-Einstein Condensates Dynamics of the convergence towards a self-similar blowup solution in a simplified model of aggregation Dynamical Phase Transition in a Neural Network Model with Noise: An Exact Solution Generic inflationary and noninflationary behavior in toy-cosmology Scaling laws for vortical nucleation solutions in a model of superflow Subcritical Dissipation in Three-Dimensional Superflows Decay Rates in Attractive Bose-Einstein Condensates Hydrodynamical Interpretation of Relativistic Charged Scalar Field Dynamics Solutions de nucleation tourbillonnaires dans un modèle d'écoulement superfluide Vortical nucleation solutions in a model of superfluid flow Detailed Balance and Reversed Process for Macroscopic System Linear Stability of Impulsively Forced Faraday Waves