added line graphs
@ -32,46 +32,46 @@ f_vals = f_vals .* (2*pi); % rads-1
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% Carrier Density
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%%%%%%%
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% carrier_vals = logspace(0, MAX_Y, Y_TOTAL); % m-2
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%
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% % below turns turns carrier densities into Fermi energies
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% fermi_vals = zeros(1, length(carrier_vals));
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% for carr=1:length(carrier_vals)
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% fermi_vals(carr) = fermi_from_carrier_density(carrier_vals(carr), ev_to_j(t));
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% end
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%
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% % CALCULATE SHEET CONDUCTIVITY
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% cond = zeros(length(f_vals),... % frequency
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% length(fermi_vals),... % fermi
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% 2); % intra/inter
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% for freq=1:length(f_vals)
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% for y=1:length(fermi_vals)
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%
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% cond(freq, y, :) = sheet_conductivity(f_vals(freq),... % omega (rads-1)
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% fermi_vals(y),... % fermi_level (J)
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% 300,... % temp (K)
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% 5e-12); % scatter_lifetime (s)
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% end
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% end
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carrier_vals = logspace(0, MAX_Y, Y_TOTAL); % m-2
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% Temperature
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%%%%%%%
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temp_vals = linspace(0, 2230, Y_TOTAL); % K
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% below turns turns carrier densities into Fermi energies
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fermi_vals = zeros(1, length(carrier_vals));
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for carr=1:length(carrier_vals)
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fermi_vals(carr) = fermi_from_carrier_density(carrier_vals(carr), ev_to_j(t));
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end
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% CALCULATE SHEET CONDUCTIVITY
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cond = zeros(length(f_vals),... % frequency
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length(temp_vals),... % fermi
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length(fermi_vals),... % fermi
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2); % intra/inter
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for freq=1:length(f_vals)
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for y=1:length(temp_vals)
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for y=1:length(fermi_vals)
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cond(freq, y, :) = sheet_conductivity(f_vals(freq),... % omega (rads-1)
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fermi_from_carrier_density(1.3e13*10000, ev_to_j(t)),... % fermi_level (J)
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temp_vals(y),... % temp (K)
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fermi_vals(y),... % fermi_level (J)
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300,... % temp (K)
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5e-12); % scatter_lifetime (s)
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end
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end
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% Temperature
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%%%%%%%
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% temp_vals = linspace(0, 2230, Y_TOTAL); % K
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%
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% CALCULATE SHEET CONDUCTIVITY
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% cond = zeros(length(f_vals),... % frequency
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% length(temp_vals),... % fermi
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% 2); % intra/inter
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% for freq=1:length(f_vals)
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% for y=1:length(temp_vals)
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%
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% cond(freq, y, :) = sheet_conductivity(f_vals(freq),... % omega (rads-1)
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% fermi_from_carrier_density(1.3e13*10000, ev_to_j(t)),... % fermi_level (J)
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% temp_vals(y),... % temp (K)
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% 5e-12); % scatter_lifetime (s)
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% end
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% end
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% Scatter Lifetime
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%%%%%%%
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% scatt_vals = logspace(-11, -14, Y_TOTAL); % s-1
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@ -98,7 +98,7 @@ if DISPLAY_HZ % divide radians back to hertz
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f_vals = f_vals ./ (2*pi);
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end
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y_vals = temp_vals;
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y_vals = carrier_vals;
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% cond = sign(cond).*log10(abs(cond));
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@ -119,13 +119,13 @@ grid;
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colorbar;
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axis tight;
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set(gca, 'xscale', 'log')
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% set(gca, 'yscale', 'log')
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set(gca, 'yscale', 'log')
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% set(gca, 'zscale', 'log')
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set(gca, 'ColorScale', 'log')
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% ylabel('Net Carrier Density (m^{-2})');
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ylabel('Temperature (K)');
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ylabel('Net Carrier Density (m^{-2})');
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% ylabel('Temperature (K)');
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% ylabel('Scatter Lifetime (s)');
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zlabel('Conductivity (S)');
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@ -152,13 +152,13 @@ grid;
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colorbar;
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axis tight;
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set(gca, 'xscale', 'log')
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% set(gca, 'yscale', 'log')
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set(gca, 'yscale', 'log')
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% set(gca, 'zscale', 'log')
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% set(gca, 'ColorScale', 'log')
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set(gca, 'ColorScale', 'log')
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% ylabel('Net Carrier Density (m^{-2})');
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ylabel('Temperature (K)');
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ylabel('Net Carrier Density (m^{-2})');
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% ylabel('Temperature (K)');
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% ylabel('Scatter Lifetime (s)');
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zlabel('Conductivity (S)');
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@ -18,7 +18,7 @@ F_TOTAL = 1e2; % number of points to generate
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% EXCITATION_TYPE = 'inter';
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EXCITATION_TYPE = 'all';
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TWO_SERIES = true; % for comparing two dopants
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MULTIPLE_SERIES = true; % for comparing two dopants
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%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%% CALCULATE
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@ -31,19 +31,27 @@ x_vals = x_vals .* (2*pi); % rads-1
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cond = zeros(length(x_vals), 2);
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for x=1:length(x_vals)
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cond(x, :) = sheet_conductivity(x_vals(x),... % omega (rads-1)
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fermi_from_carrier_density(1.3e13*10000, ev_to_j(3)),... % fermi_level (J)
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fermi_from_carrier_density(1.3e13*100*100, ev_to_j(3)),... % fermi_level (J)
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300,... % temp (K)
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1e-12); % scatter_lifetime (s)
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end
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if TWO_SERIES
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if MULTIPLE_SERIES
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cond2 = zeros(length(x_vals), 2);
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for x=1:length(x_vals)
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cond2(x, :) = sheet_conductivity(x_vals(x),... % omega (rads-1)
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fermi_from_carrier_density(2.2e13*10000, ev_to_j(3)),... % fermi_level (J)
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fermi_from_carrier_density(2.2e13*100*100, ev_to_j(3)),... % fermi_level (J)
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300,... % temp (K)
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1e-12); % scatter_lifetime (s)
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end
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% cond3 = zeros(length(x_vals), 2);
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% for x=1:length(x_vals)
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% cond3(x, :) = sheet_conductivity(x_vals(x),... % omega (rads-1)
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% fermi_from_carrier_density(1.3e13*10000, ev_to_j(3)),... % fermi_level (J)
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% 300,... % temp (K)
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% 1e-12); % scatter_lifetime (s)
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% end
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end
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if DISPLAY_HZ % divide radians back to hertz
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@ -54,11 +62,16 @@ end
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%% RENDER
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%%%%%%%%%%%%%%%%%%%%%%%%%%%
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RE_COLOUR = 'r';
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RE_COLOUR = 'r-';
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IM_COLOUR = 'r--';
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RE_COLOUR2 = 'b';
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MAG_COLOUR = 'r:';
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RE_COLOUR2 = 'b-';
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IM_COLOUR2 = 'b--';
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LW = 1.5;
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MAG_COLOUR2 = 'b:';
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RE_COLOUR3 = 'b';
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IM_COLOUR3 = 'b--';
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MAG_COLOUR3 = 'b:';
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LW = 2;
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figure(1);
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hold on;
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@ -66,10 +79,16 @@ hold on;
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if strcmp(EXCITATION_TYPE, 'intra')
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plot(x_vals, real(cond(:, 1)), RE_COLOUR, 'LineWidth', LW);
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plot(x_vals, imag(cond(:, 1)), IM_COLOUR, 'LineWidth', LW);
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plot(x_vals, abs(cond(:, 1)), MAG_COLOUR, 'LineWidth', LW);
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if TWO_SERIES
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if MULTIPLE_SERIES
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plot(x_vals, real(cond2(:, 1)), RE_COLOUR2, 'LineWidth', LW);
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plot(x_vals, imag(cond2(:, 1)), IM_COLOUR2, 'LineWidth', LW);
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plot(x_vals, abs(cond2(:, 1)), MAG_COLOUR2, 'LineWidth', LW);
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% plot(x_vals, real(cond3(:, 1)), RE_COLOUR3, 'LineWidth', LW);
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% plot(x_vals, imag(cond3(:, 1)), IM_COLOUR3, 'LineWidth', LW);
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% plot(x_vals, abs(cond3(:, 1)), MAG_COLOUR3, 'LineWidth', LW);
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end
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title('2D Intraband Sheet Conductivity');
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@ -77,10 +96,16 @@ if strcmp(EXCITATION_TYPE, 'intra')
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elseif strcmp(EXCITATION_TYPE, 'inter')
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plot(x_vals, real(cond(:, 2)), RE_COLOUR, 'LineWidth', LW);
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plot(x_vals, imag(cond(:, 2)), IM_COLOUR, 'LineWidth', LW);
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plot(x_vals, abs(cond(:, 2)), MAG_COLOUR, 'LineWidth', LW);
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if TWO_SERIES
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if MULTIPLE_SERIES
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plot(x_vals, real(cond2(:, 2)), RE_COLOUR2, 'LineWidth', LW);
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plot(x_vals, imag(cond2(:, 2)), IM_COLOUR2, 'LineWidth', LW);
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plot(x_vals, abs(cond2(:, 2)), MAG_COLOUR2, 'LineWidth', LW);
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% plot(x_vals, real(cond3(:, 2)), RE_COLOUR3, 'LineWidth', LW);
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% plot(x_vals, imag(cond3(:, 2)), IM_COLOUR3, 'LineWidth', LW);
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% plot(x_vals, abs(cond3(:, 2)), MAG_COLOUR3, 'LineWidth', LW);
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end
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title('2D Interband Sheet Conductivity');
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@ -88,10 +113,16 @@ elseif strcmp(EXCITATION_TYPE, 'inter')
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else
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plot(x_vals, real(sum(cond, 2)), RE_COLOUR, 'LineWidth', LW);
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plot(x_vals, imag(sum(cond, 2)), IM_COLOUR, 'LineWidth', LW);
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plot(x_vals, abs(sum(cond, 2)), MAG_COLOUR, 'LineWidth', LW);
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if TWO_SERIES
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if MULTIPLE_SERIES
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plot(x_vals, real(sum(cond2, 2)), RE_COLOUR2, 'LineWidth', LW);
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plot(x_vals, imag(sum(cond2, 2)), IM_COLOUR2, 'LineWidth', LW);
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plot(x_vals, abs(sum(cond2, 2)), MAG_COLOUR2, 'LineWidth', LW);
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% plot(x_vals, real(sum(cond3, 2)), RE_COLOUR3, 'LineWidth', LW);
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% plot(x_vals, imag(sum(cond3, 2)), IM_COLOUR3, 'LineWidth', LW);
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% plot(x_vals, abs(sum(cond3, 2)), MAG_COLOUR3, 'LineWidth', LW);
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end
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title('2D Sheet Conductivity');
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end
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@ -100,8 +131,9 @@ set(gca,'Xscale','log')
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% set(gca,'Yscale','log')
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axis tight
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if TWO_SERIES
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legend('Real TTF', 'Imaginary TTF', 'Real CoCp2', 'Imaginary CoCp2');
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if MULTIPLE_SERIES
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legend('Re(TTF)', 'Im(TTF)', '|TTF|', 'Re(CoCp_2)', 'Im(CoCp_2)', '|CoCp_2|');
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% legend('Re(1x10^{8}m^{-2})', 'Im(1x10^{8}m^{-2})', '|1x10^{8}m^{-2}|', 'Re(1x10^{15}m^{-2})', 'Im(1x10^{15}m^{-2})', '|1x10^{15}m^{-2}|', 'Re(1.3x10^{17}m^{-2})', 'Im(1.3x10^{17}m^{-2})', '|1.3x10^{17}m^{-2}|');
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else
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legend('Real', 'Imaginary');
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end
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1284
Report/report.lyx
BIN
Resources/carrier-density/complex-lines-mag.png
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After Width: | Height: | Size: 289 KiB |
BIN
Resources/carrier-density/complex-lines.png
Normal file
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After Width: | Height: | Size: 260 KiB |
BIN
Resources/carrier-density/interband-lines-mag.png
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After Width: | Height: | Size: 284 KiB |
BIN
Resources/carrier-density/interband-lines.png
Normal file
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After Width: | Height: | Size: 260 KiB |
BIN
Resources/carrier-density/intraband-lines-mag.png
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After Width: | Height: | Size: 291 KiB |
BIN
Resources/carrier-density/intraband-lines.png
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After Width: | Height: | Size: 260 KiB |
BIN
Resources/david-recreation-inter-mag.png
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After Width: | Height: | Size: 245 KiB |
BIN
Resources/david-recreation-intra-mag.png
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After Width: | Height: | Size: 280 KiB |
BIN
Resources/david-recreation-mag.png
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After Width: | Height: | Size: 278 KiB |
BIN
Resources/scatter-lifetime/complex-lines-mag.png
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After Width: | Height: | Size: 286 KiB |
BIN
Resources/scatter-lifetime/complex-lines.png
Normal file
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After Width: | Height: | Size: 260 KiB |
BIN
Resources/scatter-lifetime/interband-lines-mag.png
Normal file
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After Width: | Height: | Size: 273 KiB |
BIN
Resources/scatter-lifetime/interband-lines.png
Normal file
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After Width: | Height: | Size: 253 KiB |
BIN
Resources/scatter-lifetime/intraband-lines-mag.png
Normal file
|
After Width: | Height: | Size: 240 KiB |
BIN
Resources/scatter-lifetime/intraband-lines.png
Normal file
|
After Width: | Height: | Size: 261 KiB |
BIN
Resources/temperature/complex-lines-mag.png
Normal file
|
After Width: | Height: | Size: 308 KiB |
BIN
Resources/temperature/complex-lines.png
Normal file
|
After Width: | Height: | Size: 302 KiB |
BIN
Resources/temperature/interband-lines-mag.png
Normal file
|
After Width: | Height: | Size: 264 KiB |
BIN
Resources/temperature/interband-lines.png
Normal file
|
After Width: | Height: | Size: 248 KiB |
BIN
Resources/temperature/intraband-lines-mag.png
Normal file
|
After Width: | Height: | Size: 308 KiB |
BIN
Resources/temperature/intraband-lines.png
Normal file
|
After Width: | Height: | Size: 302 KiB |