[分享]利用MATLAB光学仿真（1） [复制链接]

利用菲涅尔公式计算光波在两种介质表面折反射率及折反射能流密度 #o yvsS8  
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1、光疏射向光密 06Uxd\E~  
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clear M6DyOe<  
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close all @uH7GW}$g  
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n1=1,n2=1.45; Jw {:1  
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theta=0:0.1:90; >O\-\L  
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a=theta*pi/180; ]]`+aF0  
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rp=(n2*cos(a)-n1*sqrt(1-(n1/n2*sin(a)).^2))./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); #+_OyZ*  
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rs=(n1*cos(a)-n2*sqrt(1-(n1/n2*sin(a)).^2))./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2));
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tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); QAb[M\G  
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ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); Gl1`Nx0  
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figure(1) ;=uHK'{  
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subplot(1,2,1); 9"V27"s  
pl"|NZz 7;  
plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) 5~.\rcr%  

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legend('r_p','r_s','|r_p|','|r_s|') v3]q2*`G#  
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xlabel('\theta_i') =20Q!wcu  
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ylabel('Amplitude') .s2d  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) gXH89n  
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axis([0 90 -1 1]) c\;}ov+  
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grid on $6'xRUx X  
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subplot(1,2,2); `I'=d4  
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plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2) /pyKTZ|  
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legend('t_p','t_s','|t_p|','|t_s|') UT^t7MY#O  
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xlabel('\theta_i') 01w=;Q  
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ylabel('Amplitude') o[cKh7&+  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) c6lEWC:  
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axis([0 90 0 1]) z5{I3 Y!1  
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grid on WVo%'DtF`  
r!x^P=f,MJ  
Rp=abs(rp).^2; 4&$G;?#W2  
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Rs=abs(rs).^2; .upcUS8  
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Rn=(Rp+Rs)/2; J'7){C"G$  
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Tp=1-Rp; e=F' O] 5  
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Ts=1-Rs; h.7 1O"N  
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Tn=(Tp+Ts)/2; m' aakq  
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figure(2) }
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subplot(1,2,1); H$[--_dI{  
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plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) Ot,sMRk'  
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legend('R_p','R_s','R_n') #2WBYScW0  
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xlabel('\theta_i') mS);bs  
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ylabel('Amplitude') Q5jP`<zWU  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) \Xkx`C  
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axis([0 90 0 1]) 6dinC <[}  
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grid on .z{7 rH  
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subplot(1,2,2); |]I?^:I
 
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plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) Ne#nSx5,  
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legend('T_p','T_s','T_n') 60p1.;'/a  
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xlabel('\theta_i') DvhK0L*Qr  
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ylabel('Amplitude') 2>H\arEstR  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) zY#U]Is  
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axis([0 90 0 1]) ", |wG7N K  
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grid on -bj1y2)n  
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2、光密射向光疏 Dho~6K}"  
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clear Ft|a/e  
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close all w5[POo' 5  
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n1=1.45,n2=1; .58AXg  
fkI<RgM  
theta=0:0.1:90; gz88$BT  
T|}HK]QOX  
a=theta*pi/180; tL3(( W"  
!sLn;1l  
rp=(n2*cos(a)-n1*sqrt(1-(n1/n2*sin(a)).^2))./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); <8y8^m`P9  
JRNyvG>j  
rs=(n1*cos(a)-n2*sqrt(1-(n1/n2*sin(a)).^2))./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); x##Iv|$  
p1&d@PF&&  
tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); I{2e0  
ud.S, 8Sy  
ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); xCQ<G{;C  
B]hZ4.B1  
figure(1) ;m&f Vp  
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subplot(1,2,1); ybB}|4d&  
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plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) l9<+4rK2  
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legend('r_p','r_s','|r_p|','|r_s|') a;
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xE9s=}  
xlabel('\theta_i') 2z-&Ya Qu  
16]O^R;r  
ylabel('Amplitude') <oeHZD_OR  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) (V+(\<M  
xWlB!r<}Gz  
axis([0 90 -1.5 1.5]) bc 0|tJc  
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grid on Vxw?"mhP  
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subplot(1,2,2); ;lK2]  
aTPpE9Pa&  
plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2) ;ndg,05_  
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legend('t_p','t_s','|t_p|','|t_s|') fG.w;Aemv5  
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xlabel('\theta_i') B(>_.x#kv  
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ylabel('Amplitude') )ejvT-  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) gG$o8c-  
'-*r&:  
axis([0 90 -0.5 3]) :bh[6F  
co12\,aD  
grid on X~j A*kmAj  
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Rp=abs(rp).^2; fW\u*dMMZE  
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Rs=abs(rs).^2; A,iXiDb3pK  
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Rn=(Rp+Rs)/2; M0]fh5O  
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Tp=1-Rp; `C=p7%  
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Ts=1-Rs; $iB(N ZV  
BpKP]V  
Tn=(Tp+Ts)/2; 9R E;50h  
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figure(2) *]EcjK%  
G/D{K$=t~  
subplot(1,2,1); E+>;tLw3j  
g-]td8}#  
plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) Z-~^)lo  
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legend('R_p','R_s','R_n') eygyVhJ  
]:f1r8<3p  
xlabel('\theta_i') R0+m7mx#E  
'IgtBd|K>  
ylabel('Amplitude') :_^YEm+A  
^8\pJg_0  
title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) TX 87\W.  
N7e^XUG   
axis([0 90 0 1]) y_nh~&  
PK~okz4b  
grid on X(1.Hjh  
SrKF\h%/+  
subplot(1,2,2); 0|U<T#t8?  
1"k +K~:  
plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) ,CdI.kV>o2  
6v1j*'  
legend('T_p','T_s','T_n') G'bp  
2<'gX>TW  
xlabel('\theta_i') a#{a{>  
f]hW>-B(q  
ylabel('Amplitude') h0gT/x  
Fl O%OD  
title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) NfSe(rd  
}%}eyLm(  
axis([0 90 0 1]) HsXFglQ  
="4jk=on  
grid on z4<h)hh"k6  
U_J|{*4S.!  

图片:jpeg2.jpg

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这个在《MATLAB在光学中的应用》这本书里都有

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