openEMS/matlab/examples/other/Metamaterial_PlaneWave_Drude.m

%%%%%%%%%%%%%%%%%%%%%%%
% example demonstrating double drude meta-material
%
% author: Thorsten Liebig @ 2010
%%%%%%%%%%%%%%%%%%%%%%%

close all
clear
clc

%% setup the simulation %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
postproc_only = 0;      %set to 1 if the simulation is already done

Settings = [];
Settings.LogFile = 'openEMS.log';

pic_size = round([1400 1400/4]); %define the animation picture size

%simulation domain setup (in mm)
length = 4000;
width = 100;    
mesh_res = 5;        % mesh resolution
height = 3*mesh_res; % hight is ony 3 lines with PEC (top/bottom) --> quasi 2D

%FDTD setup
f0 = 0.5e9;         %center frequency
f_BW = f0/sqrt(2);  %bandwidth
MTM.f0 = f0;        %plasma frequency of the drude material
MTM.length = 1000;  %length of the metamaterial
N_TS = 5e4;         %number of timesteps
endCriteria = 1e-5; %stop simulation if signal is at -50dB

%constants
EPS0 = 8.85418781762e-12;
MUE0 = 1.256637062e-6;

%% define openEMS options %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
openEMS_opts = '';
% openEMS_opts = [openEMS_opts ' --disable-dumps'];
openEMS_opts = [openEMS_opts ' --engine=fastest'];

Sim_Path = 'MTM_PW_Drude';
Sim_CSX = 'MTM_PW_Drude.xml';

if (postproc_only==0)
    
    if (exist(Sim_Path,'dir'))
        rmdir(Sim_Path,'s');
    end
    mkdir(Sim_Path);

    %% setup FDTD parameter & excitation function %%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    FDTD = InitFDTD(N_TS,endCriteria,'OverSampling',10);
    FDTD = SetGaussExcite(FDTD,f0,f0/sqrt(2));
    % FDTD = SetSinusExcite(FDTD,f0*sqrt(2));
    BC = [1 1 0 0 2 2];
    FDTD = SetBoundaryCond(FDTD,BC);

    %% setup CSXCAD geometry & mesh %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    CSX = InitCSX();
    mesh.x = -width/2 : mesh_res : width/2;
    mesh.y = -height/2 : mesh_res : height/2;
    mesh.z = -length/2 : mesh_res : length/2;
    CSX = DefineRectGrid(CSX, 1e-3,mesh);

    %% apply the plane wave excitation %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    start=[-width/2 -height/2 ,mesh.z(3)];
    stop=[width/2 height/2 mesh.z(3)];
    CSX = AddExcitation(CSX,'excite',0,[0 1 0]); % excite E_y
    CSX = AddBox(CSX,'excite',0 ,start,stop);

    %% apply drude material %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    CSX = AddProperty(CSX,'LorentzMaterial','drude');
    CSX = SetPropertyArgs(CSX,'LorentzMaterial','drude','PlasmaFrequency','Epsilon',MTM.f0);
    CSX = SetPropertyArgs(CSX,'LorentzMaterial','drude','PlasmaFrequency','Mue'    ,MTM.f0);
    start=[mesh.x(1)   mesh.y(1)   -MTM.length/2];
    stop =[mesh.x(end) mesh.y(end)  MTM.length/2];
    CSX = AddBox(CSX,'drude', 10 ,start,stop);

    %% define dump boxes... %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    CSX = AddDump(CSX,'Et','FileType',1,'SubSampling','10,10,1');
    start = [mesh.x(2) ,0 , mesh.z(1)];
    stop = [mesh.x(end-1) , 0 , mesh.z(end)];
    CSX = AddBox(CSX,'Et',0 , start,stop);

    %% Write openEMS compatoble xml-file %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    WriteOpenEMS([Sim_Path '/' Sim_CSX],FDTD,CSX);

    %% run openEMS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
    RunOpenEMS(Sim_Path, Sim_CSX, openEMS_opts, Settings);

end

%% plot E-fields
freq = [f0/sqrt(2) f0 f0*sqrt(2)];
field = ReadHDF5FieldData([Sim_Path '/Et.h5']);
mesh_h5 = ReadHDF5Mesh([Sim_Path '/Et.h5']);

ET = ReadUI('et',Sim_Path);
ef = DFT_time2freq(ET.TD{1}.t,ET.TD{1}.val,freq);

field_FD = GetField_TD2FD(field, freq);

mesh.x = linspace(-500,500,numel(mesh_h5.lines{1})); %make animation wider...
mesh.y = mesh_h5.lines{2};
mesh.z = mesh_h5.lines{3};

[X Z] = meshgrid(mesh.x,mesh.z);
X = X';
Z = Z';

for n=1:numel(field_FD.FD.values)
    Ec{n} = squeeze(field_FD.FD.values{n}/ef(n));
end

%%
figure('Position',[10 100 pic_size(1) pic_size(2)]);
phase = linspace(0,2*pi,21);
disp('press CTRL+C to stop animation');
while (1)
    for ph = phase(1:end-1)
        for n=1:numel(Ec)
            subplot(1,numel(Ec),n)
            E = real(Ec{n}.*exp(1j*ph));
            surf(X,Z,E(:,:,2));
            title(['f_0 = ' num2str(freq(n)*1e-9) ' GHz'])
        end
        pause(0.1);
    end
end
new example: plane wave with metamaterial 2010-07-06 15:07:50 +00:00			`%%%%%%%%%%%%%%%%%%%%%%%`
			`% example demonstrating double drude meta-material`
			`%`
			`% author: Thorsten Liebig @ 2010`
			`%%%%%%%%%%%%%%%%%%%%%%%`

			`close all`
			`clear`
			`clc`

			`%% setup the simulation %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`postproc_only = 0; %set to 1 if the simulation is already done`

			`Settings = [];`
			`Settings.LogFile = 'openEMS.log';`

			`pic_size = round([1400 1400/4]); %define the animation picture size`

			`%simulation domain setup (in mm)`
			`length = 4000;`
			`width = 100;`
			`mesh_res = 5; % mesh resolution`
			`height = 3*mesh_res; % hight is ony 3 lines with PEC (top/bottom) --> quasi 2D`

			`%FDTD setup`
			`f0 = 0.5e9; %center frequency`
			`f_BW = f0/sqrt(2); %bandwidth`
			`MTM.f0 = f0; %plasma frequency of the drude material`
			`MTM.length = 1000; %length of the metamaterial`
			`N_TS = 5e4; %number of timesteps`
			`endCriteria = 1e-5; %stop simulation if signal is at -50dB`

			`%constants`
			`EPS0 = 8.85418781762e-12;`
			`MUE0 = 1.256637062e-6;`

			`%% define openEMS options %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`openEMS_opts = '';`
			`% openEMS_opts = [openEMS_opts ' --disable-dumps'];`
			`openEMS_opts = [openEMS_opts ' --engine=fastest'];`

			`Sim_Path = 'MTM_PW_Drude';`
			`Sim_CSX = 'MTM_PW_Drude.xml';`

			`if (postproc_only==0)`

			`if (exist(Sim_Path,'dir'))`
			`rmdir(Sim_Path,'s');`
			`end`
			`mkdir(Sim_Path);`

			`%% setup FDTD parameter & excitation function %%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`FDTD = InitFDTD(N_TS,endCriteria,'OverSampling',10);`
			`FDTD = SetGaussExcite(FDTD,f0,f0/sqrt(2));`
			`% FDTD = SetSinusExcite(FDTD,f0*sqrt(2));`
			`BC = [1 1 0 0 2 2];`
			`FDTD = SetBoundaryCond(FDTD,BC);`

			`%% setup CSXCAD geometry & mesh %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`CSX = InitCSX();`
			`mesh.x = -width/2 : mesh_res : width/2;`
			`mesh.y = -height/2 : mesh_res : height/2;`
			`mesh.z = -length/2 : mesh_res : length/2;`
			`CSX = DefineRectGrid(CSX, 1e-3,mesh);`

			`%% apply the plane wave excitation %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`start=[-width/2 -height/2 ,mesh.z(3)];`
			`stop=[width/2 height/2 mesh.z(3)];`
			`CSX = AddExcitation(CSX,'excite',0,[0 1 0]); % excite E_y`
			`CSX = AddBox(CSX,'excite',0 ,start,stop);`

			`%% apply drude material %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`CSX = AddProperty(CSX,'LorentzMaterial','drude');`
			`CSX = SetPropertyArgs(CSX,'LorentzMaterial','drude','PlasmaFrequency','Epsilon',MTM.f0);`
			`CSX = SetPropertyArgs(CSX,'LorentzMaterial','drude','PlasmaFrequency','Mue' ,MTM.f0);`
			`start=[mesh.x(1) mesh.y(1) -MTM.length/2];`
			`stop =[mesh.x(end) mesh.y(end) MTM.length/2];`
			`CSX = AddBox(CSX,'drude', 10 ,start,stop);`

			`%% define dump boxes... %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`CSX = AddDump(CSX,'Et','FileType',1,'SubSampling','10,10,1');`
			`start = [mesh.x(2) ,0 , mesh.z(1)];`
			`stop = [mesh.x(end-1) , 0 , mesh.z(end)];`
			`CSX = AddBox(CSX,'Et',0 , start,stop);`

			`%% Write openEMS compatoble xml-file %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`WriteOpenEMS([Sim_Path '/' Sim_CSX],FDTD,CSX);`

			`%% run openEMS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`RunOpenEMS(Sim_Path, Sim_CSX, openEMS_opts, Settings);`

			`end`

			`%% plot E-fields`
			`freq = [f0/sqrt(2) f0 f0*sqrt(2)];`
			`field = ReadHDF5FieldData([Sim_Path '/Et.h5']);`
			`mesh_h5 = ReadHDF5Mesh([Sim_Path '/Et.h5']);`

			`ET = ReadUI('et',Sim_Path);`
			`ef = DFT_time2freq(ET.TD{1}.t,ET.TD{1}.val,freq);`

			`field_FD = GetField_TD2FD(field, freq);`

			`mesh.x = linspace(-500,500,numel(mesh_h5.lines{1})); %make animation wider...`
			`mesh.y = mesh_h5.lines{2};`
			`mesh.z = mesh_h5.lines{3};`

			`[X Z] = meshgrid(mesh.x,mesh.z);`
			`X = X';`
			`Z = Z';`

matlab: examples update 2011-09-20 13:09:54 +00:00			`for n=1:numel(field_FD.FD.values)`
			`Ec{n} = squeeze(field_FD.FD.values{n}/ef(n));`
new example: plane wave with metamaterial 2010-07-06 15:07:50 +00:00			`end`

			`%%`
			`figure('Position',[10 100 pic_size(1) pic_size(2)]);`
			`phase = linspace(0,2*pi,21);`
			`disp('press CTRL+C to stop animation');`
			`while (1)`
			`for ph = phase(1:end-1)`
			`for n=1:numel(Ec)`
			`subplot(1,numel(Ec),n)`
			`E = real(Ec{n}.exp(1jph));`
			`surf(X,Z,E(:,:,2));`
			`title(['f_0 = ' num2str(freq(n)*1e-9) ' GHz'])`
			`end`
			`pause(0.1);`
			`end`
			`end`