Transcript Slide 1

27 July - 07 August 2009
The Abdus Salam International Centre for
Theoretical Physics, Trieste, Italy
Turbulent Mixing and Beyond
Second International Conference and Advanced School
Goals of the International Conference
Turbulent Mixing and Beyond
• to expose the generic problem of
Non-equilibrium Turbulent Processes
to a wide scientific community
• to promote the development of new ideas in tackling
the fundamental aspects of the problem
• to assist in application of novel approaches in a
broad range of phenomena,
where the turbulent processes occur,
• to have a potential impact on technology.
Building the Bridges
The Conference provides the opportunity
to bring together scientists from many different areas
• high energy density physics, plasmas
• fluid dynamics, turbulence, combustion, material science
• geophysics, astrophysics, physics of atmosphere
• optics and telecommunications
• applied mathematics, probability, statistics
• data processing and computations
to focus our attention on the
long-standing formidable task and on a
“connection to reality.”
Non-equilibrium Turbulent Processes
play a key role in a wide variety of phenomena
ranging from astrophysical to atomistic scales
under high or low energy density conditions
• inertial confinement, heavy-ion and magnetic fusion
• light-matter interaction and non-equilibrium heat transfer
• material transformation under high strain rates
• shocks, explosions, blast waves
• supernovae and accretion disks, early Universe formation
• stellar non-Boussinesq and magneto-convection
• planetary interiors and mantle-lithosphere tectonics
• premixed and non-premixed combustion
• oceanography, atmospheric flows, Earth science
• non-canonical wall-bounded flows, including hypersonic and supersonic
cutting-edge technology
• laser micro-machining, nano-electronics
• free-space optical telecommunications
industrial applications in aeronautics and aerodynamics
Generic problem
Predictive modeling and reliable quantification of non-equilibrium turbulent
processes are highly formidable tasks.
Their theoretical description is one of the most challenging problems in
hydrodynamics, whose complexity
• expands the horizons of the modern theory of partial differential equations
• encourages the development of perturbative, integral and stochastic
approaches for their solution
• call for new connections to the dynamics at atomistic and meso-scales
• suggests new methods for predictive numerical modeling,
up to peta-scale level, for error estimate and uncertainty quantification
as well as novel data assimilation techniques
On the experimental side, non-equilibrium processes
are extremely hard to systematically study
in a well-controlled laboratory environment.
Their extreme sensitivity and transient character of the dynamics
• impose high requirements on the accuracy and spatio-temporal resolution
of the measurements as well as data rate acquisition,
• recur as a primary concern the influence of an observer on
the observation results and data interpretation.
Turbulent Mixing and Beyond
Conference features
• wide scope
• focus on hard problems
• high quality of presentations
Conference is structured
• to encourage participants’ communications
with experts from different fields
• to promote the exchange of ideas
and suggestion of open problems
• to promote the discussions of rigorous mathematical issues,
theoretical approaches and
state-of-the-art numerical simulations
along with advanced experimental techniques and
technological applications.
Objectives of TMB-2009
- Encourage the integration of
theory, experiments, simulations and technologies
for exploration of physical mechanisms of non-equilibrium turbulent
processes, from atomistic to macro-scales, in both high and low
energy density regimes
- Foster the application of innovative approaches for tackling the
fundamental aspects of the problem, and
understand and extend the range of applicability of traditional
statistically steady considerations.
- Stimulate the application of advanced statistical and stochastic
techniques and data analysis methodologies
for unified characterization of the experimental and numerical data
sets and for the estimation of their fidelity and information capacity.
- Further develop the TMB Community and enable it with the means of
information exchange via a Collaborative Computing Environment, by
providing access to the state-of-the-art advanced computational
methodologies for data annotation, visualization, storage, transfer and
analysis.
Conference and School Structure
Our Program covers a broad variety of Themes and consists of
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tutorials (45 – 50 minutes)
invited lectures (35 minutes)
contributed talks (25 minutes)
posters
round tables
Tutorials: for professional and graduate education
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theory of non-equilibrium processes in fluids and plasmas
mathematical aspects of multi-scale dynamics
experiments and experimental diagnostics in fluids and plasmas
numerical methods: verification, validation, uncertainty quantification
methodologies on data assimilation, processing and analysis
cyber-infrastructure and cyber-physical systems, high-performance systems
Round Tables: informal discussions (action items)
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connection to well-established fields and problems
identification of a model problem, with a wide range of applications
elaboration of quantitative criteria for
estimates of quality and information capacity of experimental and numerical
data set
collaborative computing environment
Who are we?
Conference participants:
over 160 people, submitted ~200 contributions of ~400 authors, over 60+
invited lectures and tutorials
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Our Participants involve:
students and young researchers
seasoned scientists
members of leading scientific institutions
members of National Academies of Science and Engineering,
founders of scientific schools, leader of research institutions
industry and high-tech
Europe, USA, Russia and FSU, Australia, Canada, Japan, India, …
The key word:
respect.
Committees
Organization:
Snezhana I. Abarzhi (chairperson, USA)
Malcolm J. Andrews (Los Alamos National Laboratory, USA)
Sergei I. Anisimov (Landau Inst Theoretical Physics, Russia)
Hiroshi Azechi (Institute for Laser Engineering, Osaka, Japan)
Christopher J. Keane (Lawrence Livermore Natl Laboratory, USA)
Serge Gauthier (Commissariat à l'Energie Atomique, France)
Joseph J. Niemela (local organizer, Int Centre Theor Physics, Italy)
Robert Rosner (Argonne National Laboratory, USA)
Katepalli R. Sreenivasan (Int Centre for Theoretical Physics, Italy)
Alexander L. Velikovich (Naval Research Laboratory, USA)
Scientific Advisory Committee
S.I. Abarzhi (University of Chicago, USA)
Y. Aglitskiy (Science Applications International Corporation, USA)
H. Azechi (Institute for Laser Engineering, Osaka, Japan)
M.J. Andrews (Los Alamos National Laboratory, USA)
S.I. Anisimov (Landau Institute for Theoretical Physics, Russia)
E. Bodenschatz (Max Plank Institute, Germany)
F. Cattaneo (University of Chicago, USA)
P. Cvitanovich (Georgia Institute of Technology, USA)
S. Cowley (Imperial College, UK)
S. Dalziel (DAMTP, Cambridge, UK)
W.S. Don (Brown University, USA)
R. Ecke (Los Alamos National Laboratory, USA)
H.J. Fernando (Arizona State University, USA)
I. Foster (University of Chicago, USA)
S. Gauthier (Commissariat à l'Energie Atomique, France)
G.A. Glatzmaier (University of California at Santa Cruz, USA)
J. Glimm (State University of New York at Stony Brook, USA)
W.A. Goddard III (California Institute of Technology, USA)
J. Jimenez (Universidad Politecnica de Madrid, Spain)
L.P. Kadanoff (The University of Chicago, USA)
D.Q. Lamb (The University of Chicago, USA)
D.P. Lathrop (University of Maryland, USA)
S. Lebedev (Imperial College, UK)
P. Manneville (Ecole Polytechnique, France)
D.I. Meiron (California Institute of Technology, USA)
P. Moin (Stanford University, USA)
A. Nepomnyashchy (Technion, Israel)
J.J. Niemela (International Center for Theoretical Physics, Italy)
K. Nishihara (Institute for Laser Engineering, Osaka, Japan)
S.S. Orlov (Stanford University, USA)
S.A. Orszag (Yale University, USA)
E. Ott (University of Maryland, USA)
N. Peters (RWTS, Aachen, Germany)
S.B. Pope (Cornell, USA)
A. Pouquet (University Corp Atmospheric Research, USA)
B.A. Remington (Lawrence Livermore National Laboratory, USA)
R. Rosner (Argonne National Laboratory and University of
Chicago, USA)
A.J. Schmitt (Naval Research Laboratory, USA)
C.-W. Shu (Brown University, USA)
K.R. Sreenivasan (Int Centre for Theoretical Physics, Italy)E.
Tadmor (University of Maryland, USA)
Y.C. F. Thio (U.S. Department of Energy)
A.L. Velikovich (Naval Research Laboratory, USA)
V. Yakhot (Boston University, USA)
P.K. Yeung (Georgia Institute of Technology, USA)
F.A. Williams (University of California at San Diego, USA)
E. Zweibel (University of Wisconsin, USA)
We gratefully acknowledge support of
International Centre for Theoretical Physics (ICTP), Italy
National Science Foundation (NSF), USA
Programs: Plasma Physics; Astronomy and Astrophysics;
Computational Mathematics; Applied Mathematics; Fluid Dynamics;
Combustion, Fire and Plasma Systems;
Cyber-Physical Systems; Computer and Network Systems
Air Force Office of Scientific Research (AFOSR), USA
Programs: Hypersonics and Turbulence; Flow Control and Aeroelasticity
European Office of Aerospace Research and Development (EOARD) of FOSR, UK
Programs: Aeronautical Sciences
Department of Energy (DOE), USA
DOE Office of Science
US Department of Energy Lawrence Livermore National Laboratory (LLNL), USA
Programs: National Ignition Facility; Fusion Energy
US Department of Energy Los Alamos National Laboratory (LANL), USA
US Department of Energy Argonne National Laboratory (ANL), USA
Commissariat à l'Energie Atomique (CEA), France
Institute for Laser Engineering (ILE), Japan
The University of Chicago, USA
ASC Alliance Center for Astrophysical Thermonuclear Flashes, USA
Illinoins Institute of Technology, USA
College of Science and Letters
Photron (Europe) Ltd., UK
We gratefully acknowledge assistance of
ICTP, Trieste, Italy:
Administration: Dag Johannessen (Director’s administrator), Suzie Radosic (secretary)
Publication Office: Dilys Grilli and Guido Comar (publishing)
Housing Office: Tiziana Botazzi and Dora Phtiou
Finance Office: Andrej Milchelcich
SDU team: Carlo Fonda, Marco Zennaro, Canessa Enrique
Visa Office: Adriano Maggi, Eric Jost and Mauro Calligaris
ICTP drivers: Pierre Agbediro and Fabricio Coana
Chicago, USA:
Web: Daniil Ilyin
Welcome to the TMB-2009
TMB-2009 is organized to
advance the state-of-the-art in understanding
of fundamental physical properties of
non-equilibrium turbulent processes
have a conspicuously positive impact on
their predictive modeling capabilities and physical
description and, ultimately, on control of
these complex processes.
Success of the TMB consists from the successful work of all of us.
You are encouraged to highlight the strongest parts of your work.