File:Multiple Scattering.gif
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Summary
| Description |
English: A pulse of light scrambled by a random collection of scatterers. |
| Date | |
| Source | https://twitter.com/j_bertolotti/status/1460637298035503109 |
| Author | Jacopo Bertolotti |
| Permission (Reusing this file) |
https://twitter.com/j_bertolotti/status/1030470604418428929 |
Mathematica 12.0 code
c = 1; (*speed of light*)
\[Omega]min = 1.; \[Omega]max = 5.;
\[Omega]0 = Mean[{\[Omega]min, \[Omega]max}]; \[Sigma]0 = (\[Omega]max - \[Omega]min)/10;
amplitude[w_] := E^(-(1/(2 \[Sigma]0^2)) ((w - \[Omega]0)^2) );
k0 = N[\[Omega]0/c]; \[Lambda]0 = N[(2 \[Pi])/k0]; d = \[Lambda]0/2; (*typical scale of the absorbing layer*)
\[Delta] = \[Lambda]0/10; \[CapitalDelta] = 30*\[Lambda]0; (*Parameters for the grid*)
ReMapC[x_] := RGBColor[(2 x - 1) UnitStep[x - 0.5], 0, (1 - 2 x) UnitStep[0.5 - x]];
imn = Table[
Chop[5 (E^-((x + \[CapitalDelta]/2)/d) + E^((x - \[CapitalDelta]/2)/d) + E^-((y + \[CapitalDelta]/2)/d) + E^((y - \[CapitalDelta]/2)/d))], {x, -\[CapitalDelta]/2, \[CapitalDelta]/2, \[Delta]}, {y, -\[CapitalDelta]/2, \[CapitalDelta]/2, \[Delta]}]; (*Imaginary part of the refractive index (used to emulate absorbing boundaries)*)
dim = Dimensions[imn][[1]];
L = -1/\[Delta]^2*KirchhoffMatrix[GridGraph[{dim, dim}]]; (*Discretized Laplacian*)
ren0 = 1.5 - 1;
ren = ren0*Clip[ Total[ Table[ RotateRight[ DiskMatrix[3, dim], {RandomInteger[{0, dim}], RandomInteger[{Round[dim/8], Round[dim/2] - 5}]}], {150}] ], {0, 1}] + 1;
n = ren + I imn;
\[Sigma] = 2 \[Lambda]0;
sourcef[x_, y_, w_] := Sqrt[w/c] E^(-(x^2/(2 \[Sigma]^2))) E^(-((y + \[CapitalDelta]/2)^2/(2 (\[Lambda]0/2)^2))) E^(I w/c y);
\[Delta]\[Omega] = (\[Omega]max - \[Omega]min)/200;
\[Phi] = Table[
\[Phi]in = Table[amplitude[\[Omega]]*sourcef[x, y, \[Omega]] , {x, -\[CapitalDelta]/2, \[CapitalDelta]/2, \[Delta]}, {y, -\[CapitalDelta]/2, \[CapitalDelta]/2, \[Delta]}];
b = -(Flatten[n]^2 - 1) (\[Omega]/c)^2 Flatten[\[Phi]in]; (*Right-hand side of the equation we want to solve*)
M = L + DiagonalMatrix[ SparseArray[Flatten[n]^2 (\[Omega]/c)^2]]; (*Operator on the left-hand side of the equation we want to solve*)
Partition[LinearSolve[M, b], dim], {\[Omega], \[Omega]min, \[Omega]max, 1*\[Delta]\[Omega]}];
\[Phi]dim = Dimensions[\[Phi]][[1]];
frames = Table[
Grid[{{Style["Re(E)", White, Bold, Large], Style["|E\!\(\*SuperscriptBox[\(|\), \(2\)]\)", White, Bold, Large]}, {
ImageAdd[
ArrayPlot[
Transpose[(Re@Total[Table[\[Phi][[j]] E^(I (\[Omega]min + \[Delta]\[Omega] (j - 1) ) t), {j, 1, \[Phi]dim}] ][[(4 d)/\[Delta] ;; (-4 d)/\[Delta], (4 d)/\[Delta] ;; (-4 d)/\[Delta]]])/3], DataReversed -> True, Frame -> False, PlotRange -> {-1, 1}, LabelStyle -> {Black, Bold}, ColorFunctionScaling -> True, ColorFunction -> ReMapC, ClippingStyle -> {Blue, Red}, ImageSize -> 300, Background -> Black]
,
ArrayPlot[Transpose[(ren - 1)/5] , DataReversed -> True , ColorFunctionScaling -> False, ColorFunction -> GrayLevel, Frame -> False]
]
,
ImageAdd[
ArrayPlot[ Transpose[((Abs@Total[Table[\[Phi][[j]] E^(I (\[Omega]min + \[Delta]\[Omega] (j - 1) ) t), {j, 1, \[Phi]dim}] ][[(4 d)/\[Delta] ;; (-4 d)/\[Delta], (4 d)/\[Delta] ;; (-4 d)/\[Delta]]])/3)^2], DataReversed -> True, Frame -> False, PlotRange -> {0, 1}, LabelStyle -> {Black, Bold}, ColorFunctionScaling -> True, ColorFunction -> "AvocadoColors", ClippingStyle -> White, Background -> Black, ImageSize -> 300]
,
ArrayPlot[Transpose[(ren - 1)/5] , DataReversed -> True , ColorFunctionScaling -> False, ColorFunction -> GrayLevel, Frame -> False]
]
}}, Background -> Black]
, {t, 50, -80, -1}];
ListAnimate[frames]
Licensing
I, the copyright holder of this work, hereby publish it under the following license:
 
|
This file is made available under the Creative Commons CC0 1.0 Universal Public Domain Dedication. |
| The person who associated a work with this deed has dedicated the work to the public domain by waiving all of their rights to the work worldwide under copyright law, including all related and neighboring rights, to the extent allowed by law. You can copy, modify, distribute and perform the work, even for commercial purposes, all without asking permission.
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File history
Click on a date/time to view the file as it appeared at that time.
| Date/Time | Thumbnail | Dimensions | User | Comment | |
|---|---|---|---|---|---|
| current | 09:07, 17 November 2021 | | 609 × 336 (4.21 MB) | Berto | Uploaded own work with UploadWizard |
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