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1;
load '/tmp/total_relative_transmission_vs_phi.mat' ;
% let's create sideband transmission vs angle vectors
% 1st of all we need to create matrix instead of a vector
% with rows corresponding to absorption for each sideband
% and columns to each phi angle
N_detunings=length(detuning_freq);
N_angles=length(phis);
transmission_matrix=reshape(total_relative_transmission_vs_phi, N_detunings, N_angles);
% the last sideband is not in two-photon resonance
% we use it as a reference for background transmission
background_vector=transmission_matrix(N_detunings,:);
background_transmission=repmat( background_vector , N_detunings, 1);
transmission_matrix=-background_transmission+transmission_matrix;
line_colors= [ ...
[ 0, 0, 1]; ...
[ 1, 0, 0]; ...
[ 0, 1, 0]; ...
[ 0, 0, 0]; ...
[ 0, 0.8, 0]; ...
[ 1, 0, 1]; ...
[ 0, 0, .6] ...
];
figure(1);
clf();
hold off;
labels={};
for i=1:N_detunings-1
%we will skip the very last row since it the reference transmission
zoom_factor=1;
%plot_style=strcat("-", num2str(i));
%plot( phis, zoom_factor*(transmission_matrix(i,:)), plot_style);
labels = {labels{:}, strcat("Sideband ", num2str(i-4))};
line( phis, zoom_factor*(transmission_matrix(i,:)), "color", line_colors(i,:) );
hold on;
endfor
title("relative transmission");
xlabel("angle");
ylabel("amplitude");
legend(labels);
hold off;
% vim: ts=2:sw=2:fdm=indent
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