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simulate_bilayer_spinorbit.m
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simulate_bilayer_spinorbit.m
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% This script simulates the proximity effect in a ferromagnet with SOC.
%
% Written by Jabir Ali Ouassou <[email protected]>
% Created 2015-02-06
% Updated 2015-05-07
function simulate_bilayer_spinorbit(exchange_strength, exchange_angle, spinorbit_strength, spinorbit_angle)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% DEFINE PARAMETERS FOR THE SIMULATION
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Vectors of positions and energies that will be used in the simulation
positions = linspace(0.0, 1.0, 100);
energies = linspace(0.0, 2.0, 50);
% Filename where results will be stored
output = 'simulate_bilayer_spinorbit.dat';
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% PREPARATIONS FOR THE SIMULATION
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Make sure that all required classes and methods are in the current path
initialize;
% Create a superconductor
s = Superconductor([0], energies, 1, 0.2);
% Create a ferromagnet connected to the superconductor above
m = Ferromagnet(positions, energies, 1/0.5^2, [exchange_strength*cos(exchange_angle), exchange_strength*sin(exchange_angle), 0], SpinVector.RashbaDresselhaus(spinorbit_strength, spinorbit_angle));
m.interface_left = 3;
m.update_boundary_left(s);
% This enables or disables various debugging options
m.delay = 0;
m.debug = 1;
m.plot = 0;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% PERFORM THE SIMULATION
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Update the internal state of the metal
m.update;
% Plot the results
figure;
m.plot_dos_surf;
figure;
m.plot_dos_center;
% Save the results of the simulation
save(output);
end