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-rw-r--r-- | 3740/CH8/EX8.11/Ex8_11.sce | 38 |
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diff --git a/3740/CH8/EX8.11/Ex8_11.jpg b/3740/CH8/EX8.11/Ex8_11.jpg Binary files differnew file mode 100644 index 000000000..78393b545 --- /dev/null +++ b/3740/CH8/EX8.11/Ex8_11.jpg diff --git a/3740/CH8/EX8.11/Ex8_11.sce b/3740/CH8/EX8.11/Ex8_11.sce new file mode 100644 index 000000000..842b5fa6c --- /dev/null +++ b/3740/CH8/EX8.11/Ex8_11.sce @@ -0,0 +1,38 @@ +//Optoelectronics - An Introduction, 2nd Edition by J. Wilson and J.F.B. Hawkes
+//Example 8.11
+//OS=Windows XP sp3
+//Scilab version 5.5.2
+clc;
+clear;
+
+//given - Case(i)
+Lambda0=1e-6;//Wavelength in m
+n=1.45;//Dimensionless Refractive index of the fiber
+p=0.286;//Dimensionless Photoelastic coefficient of the fiber
+Beta=7e-11;//Isothermal compressibility of the fiber in m^2 N^-1
+Tf=1400;//Temperature in K
+k=1.38e-23;//Boltzmann constant in SI Units
+L=1e3;//Length of fiber in m
+
+mprintf("\n For Lambda0 = 1um :");
+AlphaR=8*((%pi)^3)/(3*(Lambda0^4))*(n^8)*(p^2)*Beta*k*Tf;//Absorption coefficient due to Rayleigh scattering in m^-1
+mprintf("\n AlphaR = %.2e m^(-1)",AlphaR);
+
+Loss=-10*log10(exp(-AlphaR*L));
+mprintf("\n Loss = %.2f dB km^(-1)\n",Loss);
+
+
+//given - Case(ii)
+Lambda0=1.55e-6;//Wavelength in m
+n=1.46;//Dimensionless Refractive index of the fiber
+p=0.286;//Dimensionless Photoelastic coefficient of the fiber
+Beta=7e-11;//Isothermal compressibility of the fiber in m^2 N^-1
+Tf=1400;//Temperature in K
+L=1e3;//Length of fiber in m
+
+mprintf("\n For Lambda0 = 1.55um :");
+AlphaR=8*((%pi)^3)/(3*(Lambda0^4))*(n^8)*(p^2)*Beta*k*Tf;//Absorption coefficient due to Rayleigh scattering in m^-1
+mprintf("\n AlphaR = %.2e m^(-1)",AlphaR);//The answers vary due to round off error
+
+Loss=-10*log10(exp(-AlphaR*L));
+mprintf("\n Loss = %.2f dB km^(-1)",Loss);//The answers vary due to round off error
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