Added shot noise limit calculation to the MATLAB script.

2024-09-04 18:07:22 +02:00 · 2024-09-04 18:07:22 +02:00 · 235a436436
commit 235a436436
parent 285d2a74a3
2 changed files with 15 additions and 7 deletions
--- a/Time-Series-Analyzer/Analyzer.py
+++ b/Time-Series-Analyzer/Analyzer.py
@ -273,7 +273,6 @@ def plot_psd(data, Sxx, data_str, peak_find = False, peak_find_threshold = -100,
        plt.legend(loc = 3, fontsize=12)
        plt.xlabel('Frequency [Hz]', fontsize=14)
        plt.ylabel('PSD [dB/Hz]', fontsize=14)
-        # plt.title('SNR= %.2f dB' % (SNR_f), fontsize=14)

        # Adjust layout
        plt.tight_layout()
@ -325,7 +324,6 @@ def plot_psd(data, Sxx, data_str, peak_find = False, peak_find_threshold = -100,
        plt.legend(loc = 3, fontsize=12)
        plt.xlabel('Frequency [Hz]', fontsize=14)
        plt.ylabel('PSD [dB/Hz]', fontsize=14)
-        # plt.title('SNR= %.2f dB' % (SNR_f), fontsize=14)

        # Adjust layout
        plt.tight_layout()
@ -378,7 +376,6 @@ def plot_rin(data, rin, data_str, peak_find = False, peak_find_threshold = -100,
        plt.legend(loc = 3, fontsize=12)
        plt.xlabel('Frequency [Hz]', fontsize=14)
        plt.ylabel('RIN [dB/Hz]', fontsize=14)
-        # plt.title('SNR= %.2f dB' % (SNR_f), fontsize=14)

        # Adjust layout
        plt.tight_layout()
@ -421,8 +418,7 @@ def plot_rin(data, rin, data_str, peak_find = False, peak_find_threshold = -100,
        plt.legend(loc = 3, fontsize=12)
        plt.xlabel('Frequency [Hz]', fontsize=14)
        plt.ylabel('RIN [dB/Hz]', fontsize=14)
-        # plt.title('SNR= %.2f dB' % (SNR_f), fontsize=14)
-
+        
        # Adjust layout
        plt.tight_layout()

--- a/Time-Series-Analyzer/computeRIN.m
+++ b/Time-Series-Analyzer/computeRIN.m
@ -81,19 +81,31 @@ RIN_bg_smooth  = 10*log10(spsd_bg_smooth /(average_P*delta_f));
 f        = f_s/2 * linspace(0,1,N/2+1);
 f_smooth = smooth(f,span,'moving');

+% Calculates the shot noise limit of the used PD given the wavelength of the light source and
+% incident average power
+PlanckConstant         = 6.62607015E-34;
+SpeedOfLight           = 299792458;
+WavelengthOfLaserLight = 1064E-9;
+FrequencyOfLaserLight  = SpeedOfLight / WavelengthOfLaserLight;
+QuantumEfficiencyOfPD  = 1;
+ShotNoiseLimit         = 10*log10((2 * PlanckConstant * FrequencyOfLaserLight / QuantumEfficiencyOfPD) * average_P);
+%% Plots the RIN
+
 % Plots the RIN vs frequency
 f_ = clf;
 figure(f_);
 semilogx(f_smooth,RIN_bg_smooth,'k-')
 hold on
 semilogx(f_smooth,RIN_src_smooth,'r-')
+yline(ShotNoiseLimit,'--b');
 xlabel('Frequency [Hz]')
 ylabel('RIN [dB/Hz]')
-xlim([min(f) max(f)]);
+xlim([10 max(f)]);
 title('\bf Relative Intensity Noise of ODT Arm 1')
-legend('Background PD Box', 'Power:7 V, Mod:-3.0 V','Location','NorthEast');
+legend('Detector Noise', 'Power:7 V, Mod: 100%, with PID ON', 'Shot-Noise limit','Location','NorthWest');
 % text(1e5,-95,['\bf MovingAverage = ' num2str(span) ]);
 grid on
+
 % optional: save the picture without editing wherever you want
 %------------------------------------------%     
 %     saveas(f_,'FileName','png');         %