You are here

Core Participants

Untitled Document
Applied Mathematics and Plasma Physics, LANL  -  NODE
  
 Image of Eli Ben-NaimEli Ben-Naim
  • Core Faculty
Physics of Condensed Matter and Complex Systems
Los Alamos National Laboratory

  • Statistical Physics
 
 Image of Luis ChaconLuis Chacon
  • Core Faculty
Applied Math and Plasma Theory
Los Alamos National Laboratory

Applied Physics & Applied Math., Columbia Univ. - NODE
  
 Image of Qiang DuQiang Du
  • Core Faculty
Department of Applied Physics and Applied Mathematics
Columbia University
 
 Image of Rachael KellerRachael Keller
  • Core Student
Applied Physics and Applied Mathematics
Columbia University

  • My research interests include mathematical analysis of the spectral properties of the Schroedinger operator in periodic media and computational theory and techniques for numerical simulation of static and dynamic operators in periodic media.
 
 Image of Michael WeinsteinMichael Weinstein
  • Core Faculty
Department of Applied Physics and Applied Mathematics
and Department of Mathematics
Columbia University

Cambridge & Imperial College - NODE
  
 Image of José CarrilloJosé Carrillo
  • Core Faculty
Department of Mathematics
Imperial College London

  • kinetic equations, nonlinear diffusion equations
 
 Image of Pierre DegondPierre Degond
  • Core Faculty
Department of Mathematics
Imperial College London

  • Collective dynamics and self-organization
 
 Marina Ferreira
  • Core Student
Imperial College London
 
 Image of Peter MarkowichPeter Markowich
  • Core Faculty
Department of Applied Mathematics
King Abdullah University
 
 Image of Endre SüliEndre Süli
  • Core Faculty
Mathematical Institute
University of Oxford

Computer Science and Math. Division, ORNL - NODE
  
 Image of Cory HauckCory Hauck
  • Core Faculty
Computer Science and Mathematics Division / Department of Mathematics/
Oak Ridge National Laboratory and University of Tennessee
 
 Lora Wolfe
  • Staff
ORNL

Computing & Mathematical Sciences, CalTech - NODE
  
 Image of Franca HoffmannFranca Hoffmann
  • Core Postdoc
Computing and Mathematical Sciences
California Institute of Technology

  • kinetic equations, scaling techniques, non-linear and non-local partial differential equations, collective behaviour
 
 Image of Thomas HouThomas Hou
  • Core Faculty
Computing + Mathematical Sciences Department
California Institute of Technology
 
 Image of Andrew StuartAndrew Stuart
  • Core Faculty
California Institute of Technology
 
 Linda Taddeo
  • Staff
Control and Dynamical Systems
California Institute of Technology
 
 Jennifer Wofford
  • Staff
California Institute of Technology

Ctr for Scientific Computation & Math. Modeling, UMd - HUB
  
 Image of Agi AlipioAgi Alipio
  • Staff
CSCAMM
University of Maryland
 
 Andrew Arensburger
  • Staff
CSCAMM
University of Maryland
 
 Image of Jacob BedrossianJacob Bedrossian
  • Core Faculty
CSCAMM and Department of Mathematics
University of Maryland

  • Analysis of PDEs and calculus of variations, recently with an emphasis on fluid dynamics, plasma physics, and kinetic theory.
 
 Image of Siming HeSiming He
  • Core Student
Department of Mathematics
University of Maryland

  • My main research interest is Keller Segel equation.
 
 Image of Pierre-Emmanuel JabinPierre-Emmanuel Jabin
  • Core Faculty
Department of Mathematics and CSCAMM
University of Maryland
 
 Image of Dionisios MargetisDionisios Margetis
  • Core Faculty
CSCAMM, Department of Mathematics & IPST
University of Maryland

  • Modeling and analysis of materials and physical phenomena, classically or quantum-mechanically, across scales (deterministic and stochastic aspects): Epitaxial growth, Bose-Einstein condensation, quantum computation, non-equilibrium statistical mechanics, electromagnetic wave propagation, electronic structure of materials, quantum field theory.
 
 Image of Sara MoranSara Moran
  • Staff
Center for Scientific Computation and Mathematical modeling (CSCAMM)
University of Maryland
 
 Image of Eitan TadmorEitan Tadmor
  • Core Faculty
University of Maryland
 
 Image of Anil ZenginogluAnil Zenginoglu
  • Staff
CSCAMM
University of Maryland

Department of Math. Stat. & CS, UI-Chicago - NODE
  
 Image of Christof SparberChristof Sparber
  • Core Faculty
Department of Mathematics, Statistics & Computer Science
University of Illinois at Chicago

  • Partial Differential Equations, Mathematical Physics

Department of Mathematical Sciences, CMU - NODE
  
 Francesco Patacchini
  • Core Postdoc
Department of Mathematical Sciences
Carnegie Mellon University

  • Analysis of Aggregation-Diffusion equations. Gamma-convergence of discrete energies.
 
 Image of Robert PegoRobert Pego
  • Core Faculty
Department of Mathematical Sciences
Carnegie Mellon University
 
 Image of Dejan SlepcevDejan Slepcev
  • Core Faculty
Department of Mathematical Sciences
Carnegie Mellon University

Department of Mathematics, Aachen - NODE
  
 Image of Michael HertyMichael Herty
  • Core Faculty
Department of Mathematics
Rheinisch Westfälische Technische Hochschule Aachen

Department of Mathematics, CSUN - NODE
  
 Image of Vladislav PanferovVladislav Panferov
  • Core Faculty
Department of Mathematics
California State University, Northridge

  • kinetic theory, partial differential equations

Department of Mathematics, Duke University - NODE
  
 Image of Zhenning CaiZhenning Cai
  • Core Postdoc
Mathematics
National University of Singapore
 
 Image of Jian-Guo LiuJian-Guo Liu
  • Core Faculty
Department of Physics and Department of Mathematics
Duke University

Department of Mathematics, ISU - NODE
  
 Image of Hailiang LiuHailiang Liu
  • Core Faculty
Department of Mathematics
Iowa State University

  • Applied Math, Numerical Analysis
 
 Image of James RossmanithJames Rossmanith
  • Core Faculty
Department of Mathematics
Iowa State University

Department of Mathematics, NCSU - NODE
  
 Image of Alina ChertockAlina Chertock
  • Core Faculty
Department of Mathematics
North Carolina State University

  • My present research focuses on nonlinear partial differential equations and their numerical approximations. In particular, I have been working on the development of new techniques for for shallow water and related models. Among them are different models of propagation of passive pollutant in shallow water, the EPDiff equation, which models collisions between wavefronts in both ocean and atmosphere, and others.
 
 Hengrui Hu
  • Core Student
Department of Mathematics
North Carolina State University
 
 Image of Seyma OzcanSeyma Ozcan
  • Core Student
Department of Mathematics
North Carolina State University

  • Hyperbolic Conservation and Balance Laws, Chemotaxis Models, AP Schemes

Department of Mathematics, RU-Camden - NODE
  
 Image of Nawaf Bou-RabeeNawaf Bou-Rabee
  • Core Faculty
Department of Mathematical Sciences
Rutgers University - Camden
 
 Image of Pierre CamilleriPierre Camilleri
  • Core Student
CMAP
Ecole Polytechnique
 
 Image of Sean McQuadeSean McQuade
  • Core Student
Center for Computational and Integrative Biology
Rutgers-Camden

  • I am a PhD student at Rutgers Camden. I work with Opinion formation models and Quantitative Systems Pharmacology. I have an interest in social dynamics as well.
 
 Nathaniel Merrill
  • Core Student
Rutgers
 
 Image of Benedetto PiccoliBenedetto Piccoli
  • Core Faculty
Department of Mathematical Sciences
Rutgers University-Camden

  • Crowd dynamics, sparse control of large groups
 
 Image of Nastassia Pouradier DuteilNastassia Pouradier Duteil
  • Core Student
CCIB
Rutgers University - Camden

  • My work as a PhD student consist of doing mathematical modeling of biological systems to understand various types of pattern formation, using Partial Differential Equations and Control Theory.One aspect of my work focuses on the problem of emergence of self-organization in large groups. I have studied the optimal control of a collective migration problem, in which not only do agents interact with one another to travel as a group, but they also gather clues from the environment guiding them t

Department of Mathematics, Stanford - NODE
  
 Image of Lenya RyzhikLenya Ryzhik
  • Core Faculty
Department of Mathematics
Stanford University
 
 Image of Lexing YingLexing Ying
  • Core Faculty
Department of Mathematics and ICME
Stanford University

  • Fast approximate algorithims, multiscale methods, high frequency wave propagation

Department of Mathematics, UCLA - NODE
  
 Image of Russel CaflischRussel Caflisch
  • Core Faculty
Department of Mathematics
UCLA

  • Monte Carlo methods, rarefied gas dynamics, Coulomb collisions, hybrid methods
 
 Image of Frank JenkoFrank Jenko
  • Core Faculty
Department of Physics
UCLA
 
 Tom Nykiel
  • Staff
Mathematics
UCLA
 
 Image of Stanley OsherStanley Osher
  • Core Faculty
Department of Mathematics
University of California-Los Angeles

Department of Mathematics, UCSB - NODE
  
 Image of Silvia ComelliSilvia Comelli
  • Core Student
mathematics
University of California, Santa Barbara
 
 Image of Carlos García-CerveraCarlos García-Cervera
  • Core Faculty
Department of Mathematics
University of California, Santa Barbara
 
 Image of Xu YangXu Yang
  • Core Faculty
Department of Mathematics
University of California, Santa Barbara

Department of Mathematics, UW-Madison - HUB
  
 Image of Veneta BoyanovaVeneta Boyanova
  • Staff
Mathematics
University of Wisconsin - Madison
 
 Image of Mark CastilloMark Castillo
  • Staff
Department of Mathematics
University of Wisconsin-Madison
 
 John Doe
  • Staff
Math
UW-Madison
 
 Image of Michael GrahamMichael Graham
  • Core Faculty
Department of Chemical and Biological Engineering
University of Wisconsin, Madison

  • Fluid dynamics of complex fluids, especially polymer solutions and suspensions; blood flow in the microcirculation; microbial locomotion; multiscale computational methods for fluid dynamics; turbulence and drag reduction.
 
 Image of Jingwei HuJingwei Hu
  • Core Faculty
Math
Purdue University

  • My general research interests lie in numerical analysis and scientific computing. The main goal of my research is to design robust and efficient computational methods for multiscale physical problems and to develop novel fast algorithms for computationally intensive problems by exploiting their intrinsic characteristics.
 
 Image of Shi JinShi Jin
  • Core Faculty
Department of Mathematics
University of Wisconsin-Madison
 
 Image of Qin LiQin Li
  • Core Faculty
Mathematics
University of Wisconsin-Madison

  • kinetic theory, quantum systems,
 
 Image of Vicki RichardsVicki Richards
  • Staff
Department of Mathematics
University of Wisconsin-Madison

Division of Applied Mathematics, Brown - NODE
  
 Image of Yan GuoYan Guo
  • Core Faculty
Division of Applied Mathematics
Brown University
 
 Image of Govind MenonGovind Menon
  • Core Faculty
Division of Applied Mathematics
Brown University

  • Kinetic theory, PDE
 
 Image of Chi-Wang ShuChi-Wang Shu
  • Core Faculty
Division of Applied Mathematics
Brown University

  • numerical analysis and scientific computing

ICES, UT-Austin - HUB
  
 Image of Sona AkopianSona Akopian
  • Core Student
Department of Mathematics
University of Texas at Austin

  • I am interested in evolution models for distributions of interacting gas particles. More specifically, I am looking into integrability and tail behavior of weak and weak-H solutions to the Landau equation with Coulombic interactions and looking to improve current results via the grazing collisions limit of the Boltzmann equation without an angular cutoff.
 
 Image of Irene GambaIrene Gamba
  • Core Faculty
ICES
University of Texas at Austin
 
 Image of Roche GeorgeRoche George
  • Staff
ICES
University of Texas at Austin
 
 Image of Jeff HaackJeff Haack
  • Core Postdoc
UT Austin and LANL
 
 Image of Michael HarmonMichael Harmon
  • Core Student
Institute for Computational Engineering Sciences
University of Texas at Austin

  • I study computational methods for simulating photovoltaic devices using discontinuous Galerkin and mixed finite element methods as well as domain decomposition methods. Specifically, I am researching the charge transport dynamics of reactive interfaces in nano-scale semiconductor-electrolyte solar cells. I am the developing numerical methods to alleviate the stiffness and non-linearity of the differential equations involved in modeling of these solar cells.
 
 Moon-Jin Kang
  • Core Postdoc
Department of Mathematics
University of Texas at Austin

  • Hyperbolic conservation laws,Kinetic theory, Fluid dynamics, Hydrodynamic limit, Vanishing viscosity limit, Application to the emergence dynamics in the complex system
 
 Lizanne McClenon
  • Staff
The University of Texas at Austin
 
 Image of Jose Morales EscalanteJose Morales Escalante
  • Core Student
Institute for Analysis and Scientific Computing
TU Vienna

  • Math & Computational Modeling of Boltzmann - Poisson systemsfor Electronic Transport. Discontinuous Galerkin - Finite Element Methods. Semiconductors, nanopores, fluids & plasmas.
 
 Image of Phil MorrisonPhil Morrison
  • Core Faculty
Institute for Fusion Studies
University of Texas-Austin
 
 Image of Juan RodriguezJuan Rodriguez
  • Core Student
Institute for Computational Engineering and Sciences (ICES)
University of Texas at Austin

  • I am interested in applications of kinetic theory to agent-based models, in particular modeling trading and the exchange of information in financial markets.For many simple interaction rules and network topologies, it is not possible to obtain analytical solutions for the long-term behavior of the associated Boltzmann-like equations. Stochastic numerical schemes are a promising way to treat these cases, and hopefully tools from the analysis of Direct Simulation Monte Carlo methods can be of use
 
 Image of Nora RoostaieNora Roostaie
  • Staff
Institute for Computational Engineering and Sciences (ICES)
University of Texas-Austin
 
 Donna Taylor
  • Staff
Institute for Computational Engineering & Sciences
University of Texas - Austin
 
 Image of Gordan ZitkovicGordan Zitkovic
  • Core Faculty
Department of Mathematics
University of Texas at Austin

Institute of Natural Sciences, SJTU - NODE
  
 Image of David CaiDavid Cai
  • Core Faculty
Department of Mathematics and Institute of Natural Sciences
Shanghai Jiao Tong University
 
 Image of Min TangMin Tang
  • Core Faculty
Department of Mathematics
Shanghai Jiao Tong University

  • Kinetic theory and numerical computations for Boltzmann and fluid equations, mathematical biology, especially individual based and continuous models for chemotaxis and tumor growth.

Laboratoire J.-L. Lions, Paris VI - NODE
  
 Image of François BolleyFrançois Bolley
  • Core Faculty
Ceremade
Université Paris-Dauphine
 
 Image of François GolseFrançois Golse
  • Core Faculty
Department of Mathematics
École Polytechnique

  • Kinetic models, Statistical mechanics, Parial differential equations
 
 Florent Masmoudi
  • Core Student
Institut Supérieur de l'Aéronautique et de l'Espace (ISAE)
Université de Toulouse
 
 Image of Benoît PerthameBenoît Perthame
  • Core Faculty
Laboratoire J.-L. Lions
Université Pierre et Marie Curie

  • Cell colonies self-organizationTumor growth
 
 Image of Giuseppe ToscaniGiuseppe Toscani
  • Core Faculty
Department of Mathematics
University of Pavia

School of Math. and Statistical Sciences, ASU - NODE
  
 Image of Dieter ArmbrusterDieter Armbruster
  • Core Faculty
School of Mathematical and Statistical Sciences
Arizona State University
 
 Image of Daniel BrinkmanDaniel Brinkman
  • Core Postdoc
School of Mathematical and Statistical Sciences
Arizona State University
 
 Image of Sébastien MotschSébastien Motsch
  • Core Faculty
School of Mathematical & Statistical Sciences
Arizona State University

  • Mathematical biology, derivation of macroscopic models, numerical methods for hyperbolic systems
 
 Image of Christian RinghoferChristian Ringhofer
  • Core Faculty
School of Mathematical and Statistical Sciences
Arizona State University
 
 Image of Andrea ThatcherAndrea Thatcher
  • Core Student
Department of Mathematics
Arizona State University

Seminar for Applied Mathematics, ETH - NODE
  
 Image of Remi AbgrallRemi Abgrall
  • Core Faculty
Institut für Mathematik & Computational Science
University of Zurich
 
 Image of Andrea BiandaAndrea Bianda
  • Staff
FIM - Institute for Mathematical Research
ETH
 
 Image of Christina BuchmannChristina Buchmann
  • Staff
Institute for Theoretical Studies (ITS)
ETH Zürich
 
 Image of Gianluca CrippaGianluca Crippa
  • Core Faculty
Department of Mathematics and Computer Science
University of Basel
 
 Image of Ralf HiptmairRalf Hiptmair
  • Core Faculty
Department of Mathematics
ETH-Zurich
 
 Image of Siddhartha MishraSiddhartha Mishra
  • Core Faculty
Seminar for Applied Mathematics
ETH Zurich




Past KI-Net Core Participants:


Department of Chemistry, Yale  -  NODE
  
 Image of Victor BatistaVictor Batista
  • Core Faculty
Department of Chemistry
Yale University

Department of Mathematics, Rutgers - NODE
  
 Image of Eric CarlenEric Carlen
  • Core Faculty
Department of Mathematics
Rutgers University

Department of Physics, Yeshiva - NODE
  
 Image of Lea SantosLea Santos
  • Core Faculty
Department of Physics
Yeshiva University