[Edit: fix spelling errors.]
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clear;
% Parameters
tau = linspace(-10, 10, 1000); % Time delay (in arbitrary units)
omega_0 = 2*pi; % Angular frequency for monochromatic light
delta_omega_LED = 2*pi*1e6; % Linewidth for LED (assumed)
tau_c_thermal = 0.5; % Coherence time for thermal lamp (assumed)
% Autocorrelation functions
g_monochromatic = exp(1i*omega_0*tau);
g_thermal = exp(-abs(tau)/tau_c_thermal);
g_LED = exp(-abs(delta_omega_LED*tau/2)) .* exp(1i*omega_0*tau);
% Plotting
figure;
subplot(2,2,1);
plot(tau, real(g_monochromatic), 'b', 'LineWidth', 1.5);
title('Perfect Monochromatic Source');
xlabel('\tau');
ylabel('Re[g^{(1)}(\tau)]');
subplot(2,2,2);
plot(tau, real(g_thermal), 'r', 'LineWidth', 1.5);
title('Thermal Lamp');
xlabel('\tau');
ylabel('Re[g^{(1)}(\tau)]');
subplot(2,2,3);
plot(tau, real(g_LED), 'g', 'LineWidth', 1.5);
title('Light Emitting Diode (LED)');
xlabel('\tau');
ylabel('Re[g^{(1)}(\tau)]');
subplot(2,2,4);
plot(tau, abs(g_LED), 'm', 'LineWidth', 1.5);
title('Laser Source (Coherence Length 1 km)');
xlabel('\tau');
ylabel('|g^{(1)}(\tau)|');
sgtitle('First-Order Autocorrelation Functions for Different Light Sources');
The two formulas in the jpeg which you attached say that
- the autocorrelation for monchromatic light is a cosine wave, and
- the autocorrelation for a source with non-zero linewidth is a cosine wave with a Gaussian envelope.
The code does not implement the formula for non-zero linewith correctly, because it does not square the term 
. But that is not the reason for the zero autocorrealation in the lower panels. The reason the autocorrelation is zero in the lower panels is that delta_omega_LED is very large compared to the light frequency. In your code , the light has frequency 1 cycle per unit time. The linewidth is 2*pi*10^6 radians per unit time. Therefor, by the time tau=0.02 (the tau value closest to tau=0), 
, and exp(-10^4)=0, so g_LED=0, for the range of tau which you plot (except tau=0, which should=1).
. But that is not the reason for the zero autocorrealation in the lower panels. The reason the autocorrelation is zero in the lower panels is that delta_omega_LED is very large compared to the light frequency. In your code , the light has frequency 1 cycle per unit time. The linewidth is 2*pi*10^6 radians per unit time. Therefor, by the time tau=0.02 (the tau value closest to tau=0), , and exp(-10^4)=0, so g_LED=0, for the range of tau which you plot (except tau=0, which should=1).Let's re-run your code, correcting the squaring issue, and changing delta_omega_LED to 0.5 instead of 2*pi*1e6.
% Parameters
tau = linspace(-10, 10, 1000); % Time delay (in arbitrary units)
omega_0 = 2*pi; % Angular frequency for monochromatic light
delta_omega_LED = 0.5; % Linewidth for LED (assumed)
tau_c_thermal = 0.5; % Coherence time for thermal lamp (assumed)
% Autocorrelation functions
g_monochromatic = exp(1i*omega_0*tau);
g_thermal = exp(-abs(tau)/tau_c_thermal);
g_LED = exp(-(delta_omega_LED*tau/2).^2) .* exp(1i*omega_0*tau);
% Plotting
figure;
subplot(2,2,1);
plot(tau, real(g_monochromatic), 'b', 'LineWidth', 1.5);
title('Perfect Monochromatic Source');
xlabel('\tau');
ylabel('Re[g^{(1)}(\tau)]');
subplot(2,2,2);
plot(tau, real(g_thermal), 'r', 'LineWidth', 1.5);
title('Thermal Lamp');
xlabel('\tau');
ylabel('Re[g^{(1)}(\tau)]');
subplot(2,2,3);
plot(tau, real(g_LED), 'g', 'LineWidth', 1.5);
title('Light Emitting Diode (LED)');
xlabel('\tau');
ylabel('Re[g^{(1)}(\tau)]');
subplot(2,2,4);
plot(tau, abs(g_LED), 'm', 'LineWidth', 1.5);
title('Laser Source (Coherence Length 1 km)');
xlabel('\tau');
ylabel('|g^{(1)}(\tau)|');
sgtitle('First-Order Autocorrelation Functions for Different Light Sources');
Therefore I think you should re-evaluate the value for delta_omega_LED. In your code comments, you say the optical frequency is in arbitrary units. But the plot title says Coherence Length=1 km, which is not an arbitrary unit. I don't know if this is relevant.
Thank you for introducing me to "sgtitle()". I didn't know about that command.
