73 lines
3.1 KiB
Matlab
73 lines
3.1 KiB
Matlab
%% Track spectral weight across the transition
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set(0,'defaulttextInterpreter','latex')
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set(groot, 'defaultAxesTickLabelInterpreter','latex'); set(groot, 'defaultLegendInterpreter','latex');
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format long
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font = 'Bahnschrift';
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% Load data
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Data = load('D:/Results - Experiment/B2.45G/DropletsToStripes.mat', 'unique_scan_parameter_values', 'mean_sc', 'stderr_sc', 'mean_sw', 'stderr_sw');
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dts_scan_parameter_values = Data.unique_scan_parameter_values;
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dts_mean_sc = Data.mean_sc;
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dts_stderr_sc = Data.stderr_sc;
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dts_mean_sw = Data.mean_sw;
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dts_stderr_sw = Data.stderr_sw;
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Data = load('D:/Results - Experiment/B2.45G/StripesToDroplets.mat', 'unique_scan_parameter_values', 'mean_sc', 'stderr_sc', 'mean_sw', 'stderr_sw');
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std_scan_parameter_values = Data.unique_scan_parameter_values;
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std_mean_sw = Data.mean_sw;
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std_stderr_sw = Data.stderr_sw;
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std_mean_sc = Data.mean_sc;
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std_stderr_sc = Data.stderr_sc;
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% Normalize dts data
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dts_min = min(dts_mean_sw);
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dts_max = max(dts_mean_sw);
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dts_range = dts_max - dts_min;
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dts_mean_sw_norm = (dts_mean_sw - dts_min) / dts_range;
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dts_stderr_sw_norm = dts_stderr_sw / dts_range;
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% Normalize std data
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std_min = min(std_mean_sw);
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std_max = max(std_mean_sw);
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std_range = std_max - std_min;
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std_mean_sw_norm = (std_mean_sw - std_min) / std_range;
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std_stderr_sw_norm = std_stderr_sw / std_range;
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figure(1);
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set(gcf,'Position',[100 100 950 750])
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errorbar(dts_scan_parameter_values, dts_mean_sc, dts_stderr_sc, 'o--', ...
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'LineWidth', 1.5, 'MarkerSize', 6, 'CapSize', 5, 'DisplayName' , 'Droplets to Stripes');
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hold on
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errorbar(std_scan_parameter_values, std_mean_sc, std_stderr_sc, 'o--', ...
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'LineWidth', 1.5, 'MarkerSize', 6, 'CapSize', 5, 'DisplayName', 'Stripes to Droplets');
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set(gca, 'FontSize', 14); % For tick labels only
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hXLabel = xlabel('\alpha (degrees)', 'Interpreter', 'tex');
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hYLabel = ylabel('Spectral Contrast', 'Interpreter', 'tex');
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hTitle = title('B = 2.45 G', 'Interpreter', 'tex');
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legend
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set([hXLabel, hYLabel], 'FontName', font)
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set([hXLabel, hYLabel], 'FontSize', 14)
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set(hTitle, 'FontName', font, 'FontSize', 16, 'FontWeight', 'bold'); % Set font and size for title
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grid on
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figure(2);
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set(gcf,'Position',[100 100 950 750])
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errorbar(dts_scan_parameter_values, dts_mean_sw, dts_stderr_sw, 'o--', ...
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'LineWidth', 1.5, 'MarkerSize', 6, 'CapSize', 5, 'DisplayName' , 'Droplets to Stripes');
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hold on
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errorbar(std_scan_parameter_values, std_mean_sw, std_stderr_sw, 'o--', ...
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'LineWidth', 1.5, 'MarkerSize', 6, 'CapSize', 5, 'DisplayName', 'Stripes to Droplets');
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set(gca, 'FontSize', 14); % For tick labels only
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hXLabel = xlabel('\alpha (degrees)', 'Interpreter', 'tex');
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hYLabel = ylabel('Spectral Weight', 'Interpreter', 'tex');
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hTitle = title('B = 2.45 G', 'Interpreter', 'tex');
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legend
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set([hXLabel, hYLabel], 'FontName', font)
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set([hXLabel, hYLabel], 'FontSize', 14)
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set(hTitle, 'FontName', font, 'FontSize', 16, 'FontWeight', 'bold'); % Set font and size for title
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grid on |