coauthored with: maxence cassier ornella mattei moti ...milton/hongkong.pdft h e d e s y m m e t r...
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Chapters coauthored with:
Maxence Cassier Ornella Mattei Moti Milgrom Aaron Welters
With tremendous
help from Nelson Beebe.
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Its available ! http://www.math.utah.edu/~milton/
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Rewriting some of the linear equations of Physics.
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Constitutive Law:
Differential Constraints:
Key Identity:
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Time Harmonic Equations:
Acoustics:
Elastodynamics:
Maxwell:
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Thermoacoustics: ( ( )
Key Identity:
s= 0
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Acoustics in the time domain:
Key Identity:
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Elastodynamics in the time domain:
Key identity:
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Elastodynamics in a moving frame: Galilean transformation
Matrix in the constitutive law now has Willis type couplings:
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Yellow=Compliant, Blue=Stiff Red=Rubber, Black=Lead
Time harmonic acceleration with no strain gives stress: Example of a Willis material
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Electric dipole array generates polarization field
Force dipole array generates stress field
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Piezoelectricity in the time domain:
Key identity:
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Biot equations in the time domain ( )
Key identity:
s= 0
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Thermal Conduction and Diffusion:
Key Identity:
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Thermoelasticity in the time domain:
Key Identity:
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Maxwell’s equations in the time domain:
Differential constraints
Key Identity:
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Key Identity:
A= ¹h2I=2m
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Key identity still holds, and the above equation reduces to:
¹h= 1( )
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Minimize over
where
Minimization principles for SchrÄodinger's equation
with complex energies
Ã0
subject to suitable boundary conditions on Ã0
A= ¹h2I=2m
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The Desymmetrization of SchrÄodinger's equation
Replace with:
Advantage: Can solve iteratively using FFT, and the FFT operations only need be done on , i.e. only on two electron co-ordinates not all n electrons.
A= ¹h2I=2m
Let denote appropriate symmetrization operator: ¤
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Are there other boundary field equalities or inequalities that use partial information about what is inside the body?
Following the ideas of Straley, Milgrom and Shtrikman suppose there is a matrix such that
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In two dimensions suppose
Following ideas of Keller, Dykhne and Mendelson, we have the boundary field equality
Due to the fact that the equations are satisfied with
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To establish the inequality one needs to pick a such that the volume average of is non-negative for any C-periodic function satisfying the appropriate differential constraints which we write as
Find such that is positive semidefinite for all
Then we have the boundary field inequality:
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New Methods for Imaging
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Key idea: making a direct link between Dirichlet-to-Neumann maps for bodies and effective tensors for composites.
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Abstract Theory of Composites
Hilbert Space
L :H!HOperator
Given
Solve
With
Then defines : U !U
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Example: Conducting Composites
- Periodic fields that are square integrable over the unit cell
- Constant vector fields
- Gradients of periodic potentials
- Fields with zero divergence and zero average value
- Total electric field
- Total current field
L = - Local conductivity
- Effective conductivity
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Variational principles if is self-adjoint and positive definite:
L
Leading to the elementary bounds:
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Formula for the effective operator
where is the projection onto . Leads to series expansions:
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We want to reformulate it as a problem in the abstract theory of composites, so we can apply the machinery of the theory of composites.
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The abstract problem in composites consists in finding for a given field in (with associated boundary potential ) the fields which solve: with which is exactly the conductivity problem we would solve for the Dirichlet problem.
e(x)
V0(x)
j0(x) +J(x) = ¾(x)[e(x) +E(x)]
j0(x) 2 U; J(x) 2 J ; E(x) 2 E
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Furthermore if we knew the effective operator
: U !U
Then we have and the boundary values of allow us to determine the Dirichlet-to-Neumann map assuming the fields in have been numerically calculated
j0 = L¤e
n ¢ j0(x)
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Analyticity properties of effective tensors as functions of the moduli of the component materials (Bergman, Milton, Golden and Papanicolaou) extend to the Dirichlet-to-Neumann map The Dirichlet-to-Neumann map is a Herglotz function of the matrices in the domain where these have positive definite imaginary parts, modulo a rotation in the complex plane.
¾(x) =R(x)T [Pn
i=1Âi(x)¾i]R(x)
¾1; ¾2; : : : ¾n
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Easiest to prove using an approach of Bruno: The truncated series expansion, with is a polynomial in the matrix elements of and hence will be an analytic function of them in the domain of convergence of the series One obtains integral representation formulas for and hence for the Dirichlet to Neumann map.
m
L =¾1; ¾2; : : : ¾n
¼
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Time Harmonic Equations:
Acoustics:
Elastodynamics:
Maxwell:
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In all these examples Z has positive semidefinite imaginary part (that often can be made positive definite by a slight rotation in the complex plane)
The analog of the variational principles of Cherkaev and Gibiansky are then the variational principles of Milton, Seppecher, and Bouchitte (2009) Milton and Willis (2010) For acoustics, electromagnetism, elastodynamics
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Minimization variational principles for electromagnetism at fixed, possibly complex, frequency in lossy materials. Maxwell’s equations: (here we assume real )
Let
!
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For electromagnetism, acoustics and elastodynamics, the Dirichlet-to-Neumann map is a Herglotz function of the matrices of the component materials
Z1; Z2; : : : ; Zn
For electromagnetism an alternative and rigorous proof was obtained with Maxence Cassier and Aaron Welters (in the new book)
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Some inverse problems for two-component bodies Electromagnetism: Look for special complex frequencies where Extrapolate (using representation formulas or bounds) measurements at different frequencies, or transient responses, to the neighborhood of these special frequencies
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Quasistatic Elastodynamics: Extrapolate to frequencies where Quasistatic Electromagnetism: Extrapolate to ratios close to 1
"1="2
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Note collapse of bounds: they can be used in an inverse way to almost exactly recover the volume fraction from measurements at this particular time. Analogously for Dirichlet to Neumann map, one expects to recover geometry
With Ornella Mattei in new book,
Rigorous Upper and Lower Bounds on the Stress Relaxation in cylindrical composites in antiplane elasticity
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Generalizing the concept of function to
Superfunctions!
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Adding resistor networks
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Multiplying resistor networks
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Substitution of networks
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We should consider a resistor network in conjunction with its batteries
Space Space Combined Space
H V
K=H©V
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Incidence Matrices:
Two natural subspaces: the null space of M (current vectors) the range of M (potential drops) These are orthogonal spaces and EJ
K= E ©J
T
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Other spaces: Divide the bonds in into n groups (representing the different impedances). Define as the space of vectors with elements that are zero if bond j is not in group i. The projection onto the space is diagonal and has elements Thus This is an orthogonal subspace collection Y(n)
Pi
H
P Pj
Pi¤i
f¤igjk
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Y(n) subspace collection: Z(n) subspace collection: Superfunction F (n): Y(n) subspace collection with Subspace collections need not have orthogonal subspaces
s
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TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.: AAAA
P2P1
P2
P1
E
VJ
P1E
J
U
J
E
VI
VO
Z(2) Y(2)
F (1) s
Key: Allow nonorthogonal Subspace collections. Then we have a whole algebra.
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The effective conductivity is an analytic function of the component conductivities and With , has the properties of a Stieltjes function:
¾¤¾1 ¾2
¾2 = 1
Bergman 1978 (pioneer, but faulty arguments) Milton 1981 (limit of resistor networks) Golden and Papanicolaou 1983 (rigorous proof)
Application: Accelerating some Fast Fourier Transform Methods in two-component composites
¾¤(¾1)
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Numerical scheme of Moulinec and Suquet (1994)
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Numerical scheme of Eyre and Milton (1999)
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Ideal scheme:
But we want to do this transformation at the level of the subspace collection, to recover the fields
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At a discrete level
Problem: this substitution shortens the branch cut instead of lengthening it. Solution: Substitute non-orthogonal subspace collections
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Model example: a square array of squares at 25% volume fraction
Obnosov’s exact formula
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