Added Gaussian+Modulation code snippets
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@ -88,3 +88,112 @@ title('Honeycomb Lattice ansatz for $|\Psi(x,y)|^2$', 'Interpreter', 'latex', 'F
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xlabel('x');
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ylabel('y');
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colormap parula;
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%% GAUSSIAN + STRIPES
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c = 1; % Fourier coefficient
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k = 5 * pi; % Use π to get just a couple of modulations across domain
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n = 5;
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sigma_y = 0.5; % Narrow along Y to limit rows
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sigma_x = 0.3; % Wider along X
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% Grid
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x = linspace(-2, 2, 500);
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y = linspace(-2, 2, 500);
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[X, Y] = meshgrid(x, y);
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% Gaussian envelope — anisotropic (narrow in y)
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G = exp(-((X.^2)/(2*sigma_x^2) + (Y.^2)/(2*sigma_y^2)));
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% Modulation function
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modulation = (1 + (c * cos(n * k * Y))) / (1 + 0.5 * c^2);
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% Combine
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f_modulated = G .* modulation;
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% Plot
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figure(4);
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imagesc(x, y, f_modulated);
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axis xy; axis equal tight;
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colormap('hot');
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colorbar;
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title('Gaussian + Stripe Modulation');
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xlabel('x'); ylabel('y');
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%% GAUSSIAN + TRIANGULAR LATTICE
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% Parameters
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c1 = 0.2;
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c2 = 0.2;
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k = 5 * pi; % Use π to get just a couple of modulations across domain
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n = 5;
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sigma_y = 0.5; % Narrow along Y to limit rows
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sigma_x = 0.3; % Wider along X
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% Grid
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x = linspace(-2, 2, 500);
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y = linspace(-2, 2, 500);
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[X, Y] = meshgrid(x, y);
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% Gaussian envelope — anisotropic (narrow in y)
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G = exp(-((X.^2)/(2*sigma_x^2) + (Y.^2)/(2*sigma_y^2)));
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% Triangular lattice modulation
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modulation = 1 + ...
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(c1 * cos(n * k * (2/sqrt(3)) * Y)) + ...
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(2 * c2 * cos(n * k * (1/sqrt(3)) * Y) .* cos(n * k * X));
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% Normalize
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modulation = modulation / (1 + c1 + 2*c2);
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% Combine with Gaussian
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f_modulated = G .* modulation;
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% Plot
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figure(5);
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imagesc(x, y, f_modulated);
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axis xy; axis equal tight;
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colormap('hot');
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colorbar;
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title('Gaussian + Triangular lattice');
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xlabel('x'); ylabel('y');
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%% GAUSSIAN + HONEYCOMB LATTICE
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% Parameters
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c1 = 0.2;
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c2 = 0.2;
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k = 5 * pi; % Use π to get just a couple of modulations across domain
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n = 5;
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sigma_y = 0.5; % Narrow along Y to limit rows
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sigma_x = 0.3; % Wider along X
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% Grid
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x = linspace(-2, 2, 500);
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y = linspace(-2, 2, 500);
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[X, Y] = meshgrid(x, y);
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% Anisotropic Gaussian envelope
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G = exp(-((X.^2)/(2*sigma_x^2) + (Y.^2)/(2*sigma_y^2)));
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% Honeycomb lattice modulation
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modulation = 1 - ...
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(c1 * cos(n * k * (2/sqrt(3)) * X)) - ...
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(2 * c2 * cos(n * k * (1/sqrt(3)) * X) .* cos(n * k * Y));
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% Normalize (optional)
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modulation = modulation / (1 + c1 + 2*c2);
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% Combine with Gaussian
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f_modulated = G .* modulation;
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% Plot
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figure(6);
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imagesc(x, y, f_modulated);
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axis xy; axis equal tight;
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colormap('hot');
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colorbar;
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title('Gaussian + Honeycomb lattice');
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xlabel('x'); ylabel('y');
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