Spatio-Temporal Structures and Pattern Formation An Overview
Transcript of Spatio-Temporal Structures and Pattern Formation An Overview
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Spatio-Temporal Structuresand Pattern Formation
An Overview
this pdf is available online on my home page:http://itb.biologie.hu-berlin.de/~bordyugov/tut/TBM2010/or just google up my name and follow the “Teaching” link
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What we have done so far:“point systems”
the system under considerationis described by a finite setof dynamical variables
well-stirred BZ reactionhttp://www.youtube.com/watch?v=Ch93AKJm9os
well-stirred BZ reaction
u, v: populations of species, concentrations of chemicals, potential across the cell’s membrane, etc.
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Next step: Structure in space
spatial structures in the BZ reaction with non-stirred reactants
BZ reaction in immobilized catalysthttp://www.youtube.com/watch?v=3JAqrRnKFHo
figure from the originalBelousov’s paper
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Rayleigh-Bénard convection
Conducting solution,macroscopically
fluid is not moving
Equilibrium
liquid in a temperature gradient
Rolls emergeif temperature diff
is too high
Our “observable” is the vertical velocity of the liquid
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Rayleigh-Bénard convection
Benard convection in heated silicone oilhttp://www.youtube.com/watch?v=nfvHIfzVnt0
Main idea: due to the interplay of different processes, the homogeneous state can become
unstable and a new structure can emerge
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Alan Turing on morphogenesis
http://www.dna.caltech.edu/courses/cs191/paperscs191/turing.pdf
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Somite formation in zebrafish
http://www.youtube.com/watch?v=JmLhEd73jRw
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Spiral waves in human heartcan cause arrhythmias
Computer simulationof human heart by A Panfilov et al
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What we have learned:• structures and patterns are ubiquitous in the (living) nature
• they can spontaneously emerge from homogeneous states under homogeneous conditions
• one obviously needs a more involving mathematics to describe temporal evolution of spatial structures, ODEs are not enough :-(
• modeling of spatio-temporal structures hence needs:
• more mathematics (PDEs instead of ODEs)
• more computer power
• better resolved experimental data to compare to (for instance, a normal ECG cannot resolve the spatial structure of the heart activity)
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Example of PDE:Wave equation in 1d
wave running down the string with a speed c
any function in the form ofwill be a solution to the wave equation. Indeed:
string profile:
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Heat equation in 2D
Since the observables depend on both time and space, PDEs involve (higher-order) partial derivative with respect to
them, for example, the heat equation:
temperature at (x,y) at moment t:
initial condition at t=0 is a function:
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Reaction-diffusion systems (RDS)
f(u) describes the local reaction kinetics, can be nonlinear!describes the diffusion of u, D - diffusion coef.
the role of diffusion in smoothening out the inhomogeneities
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Fronts in RDS
homogeneous stable steady states
propagation of fire frontswave of transition betweentwo otherwise stable states
the front profile and its speed doesn’t depend on the initial conditions!!!
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Action potential propagationand excitable media
models propagation of theaction potential along the
axons of giant squids
u - action potential variablev - the recovery (slow) variable
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Spiral wavesin 2D Barkley model
time-scale separation
parameters
spirals come in two flavors:rigidly rotating
and meandering
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Questions about spirals
• How their rotational frequency is chosen?
• The reason spirals don’t care about boundaries being non-localized
• Why they start to meander
• Inward/outward meander
• 3D scroll waves
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Symmetries
another pictureof Benard cells
a priori knowledge of the problem symmetries can help to predict the emerging pattern
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Numerics for PDEs
• even stiff ODEs can be solved by brute force with small time steps, this doesn’t apply to PDEs. For example, the explicit Euler scheme for the simplest PDE is unstable, no matter how small your time step is.
• implicit schemes (backward Euler or Crank-Nicolson) are needed, they involve heavy linear algebra calculations: solving linear systems with large number of unknowns
• you are happy if doubling the number of grid points just doubles your computation time (and not multiplies it by four or eight, as it often is the case)
• much fewer standard tools for numerical analysis, full-scale bifurcation analysis software must be hand-coded
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Turing instability
from original paper by A Turing modern computer simulation
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Turing instability
Suppose that is a steady state without diffusion:
Can diffusion (smoothening process by itself) lead to an instability of the zero steady state?
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Turing instability
Now concentrate on small perturbation of the zero steady state
Taylor expansion of the first order at (u,v) = (0,0)
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Turing instability: linearized Eqs
close to the steady state we have
stability without diffusion:
by the imposed stability w/o diff ==>
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Turing instability: linearized Eqssolution Ansatz:
results in the characteristic equation for σ:
product of roots is given by the free term:
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Turing instability:the critical wave number
instabcritical wave number:
minimal value of h:
critical condition:
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Turing instability:the dispersion relation
solution Ansatz:band of unstable modesband of unstable modes
modes with wave numbers close to the
critical one grow, others decay, thus a
preferred wavelength of the pattern is
selected
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Turing instability: Conclusions
• contra-intuitively, diffusion can result in an instability with a characteristic wave length
• linear stability analysis can predict this length scale
• beyond instabilities, further analysis is needed (reduced equations for the amplitude of the emerging mode, expansions in higher-order terms)