[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 *Vw\'%p*  
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1、光疏射向光密 f:B>zp;N  
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clear `qVjwJ!
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close all X>YsQrK(ig  
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n1=1,n2=1.45; U$dh1;  
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theta=0:0.1:90; 6[E|
 
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a=theta*pi/180; xVL5'y1g B  
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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)); oh"O07  
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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)); RB* J=  
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tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); B+C);WQ,  
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ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); )*;zW!H  
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figure(1) ~c)~015`  
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subplot(1,2,1); Y)N-V ]5L  
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plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) 1&;QyTN  
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legend('r_p','r_s','|r_p|','|r_s|') y2]-&]&  
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xlabel('\theta_i') J_Ltuso  
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ylabel('Amplitude') :1t~[-h^  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) '>$]{
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axis([0 90 -1 1]) C2Xd?d  
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grid on +xc'1id@[  
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subplot(1,2,2); fwK}/0%  
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plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2)
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legend('t_p','t_s','|t_p|','|t_s|') "qc6=:y}  
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xlabel('\theta_i') U=hlu  
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ylabel('Amplitude') CPg+f1K  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) "D?z  
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axis([0 90 0 1]) Fu&EhGm6  
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grid on o9cM{ya/>  
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Rp=abs(rp).^2; It2" x;  
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Rs=abs(rs).^2; 5@^ dgq  
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Rn=(Rp+Rs)/2; LM&y@"wfm  
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Tp=1-Rp; $Of0n` e  
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Ts=1-Rs; wdUBg*X8  
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Tn=(Tp+Ts)/2; !S&L*OH,  
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figure(2) >yY'7Ey  
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subplot(1,2,1); z{Mr$%'EY  

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plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) ~I{n^Q/a  
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legend('R_p','R_s','R_n') 5Ri6Z#qm  
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xlabel('\theta_i') nu'M 39{  
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ylabel('Amplitude') Zh_|m#)  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) 271&i  
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axis([0 90 0 1]) qIld;v8w"g  
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grid on 26xXl|I  
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subplot(1,2,2); [,TkFbDq"J  
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plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) V*W;OiE_3  
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legend('T_p','T_s','T_n') vap,y $C  
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xlabel('\theta_i') <n(*Xak{a  
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ylabel('Amplitude') ?wO-cnl  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) ;pnD0bH  
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axis([0 90 0 1]) /{|fyKo\?  
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grid on QcgfBsv96  
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2、光密射向光疏 ahPoEh  
#y%!\1M/:A  
clear N2w"R{)j\  
(7r<''  
close all `(3/$%  
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n1=1.45,n2=1; "U\4:k`:  
TYQwy*  
theta=0:0.1:90; 1Uqu>'  
>$ e9igwe  
a=theta*pi/180; 5:kH;/U  
G8;w{-{m  
rp=(n2*cos(a)-n1*sqrt(1-(n1/n2*sin(a)).^2))./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); bP^Je&nS*  
;v$4$D]L  
rs=(n1*cos(a)-n2*sqrt(1-(n1/n2*sin(a)).^2))./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); =dFv/F/RW  
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tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); l~M_S<4n  
vPD]hs  
ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); [h,QBz  
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figure(1) PpgP&;z4  
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subplot(1,2,1); u&n' ITH  
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plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) ma((2My'H  
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legend('r_p','r_s','|r_p|','|r_s|') [AW" D3  
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xlabel('\theta_i') -k"^o!p  
IhA*"  
ylabel('Amplitude') ;]pJj6J&v  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) PoT`}-9  
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axis([0 90 -1.5 1.5]) smry2*g  
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grid on xa pq*oj  
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subplot(1,2,2); kJ Mf  
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plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2) [!U?}1YQ  
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legend('t_p','t_s','|t_p|','|t_s|') dtcIC0:[  

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xlabel('\theta_i') a$Cdhx!  
P`e!Z:  
ylabel('Amplitude') &w1P\4?G  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) $O dCL  
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axis([0 90 -0.5 3]) }~Af/  

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grid on g'|MA~4yB  
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Rp=abs(rp).^2; >G~R,{6U  
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Rs=abs(rs).^2; YR;^hs?  
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Rn=(Rp+Rs)/2; Y>&Ew*Y  
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Tp=1-Rp;  BouTcC  
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Ts=1-Rs; Ey4z.s'-l  
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Tn=(Tp+Ts)/2; = hN !;7G  
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figure(2) R?
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subplot(1,2,1); iT)z_  
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plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) zD?K>I=  
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legend('R_p','R_s','R_n') Cj?L@%"  
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xlabel('\theta_i') 56Vb+0J'  
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ylabel('Amplitude') p+Y>F\r&w  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) Q(\4]i< S  
wX*K]VMn  
axis([0 90 0 1]) MXyaE~LK  
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grid on Q"7Gy<  
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subplot(1,2,2); ? mhs$g>  
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plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) d%0~c'D8a  
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legend('T_p','T_s','T_n') shMSN]S_x  
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xlabel('\theta_i') XyOl:>%L!P  
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ylabel('Amplitude') ;-Jb1"5  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) &wB\ ~Ie-  
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axis([0 90 0 1]) yZWoN&  
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grid on MW+b;0U`#  
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感谢楼主分享

这个在《MATLAB在光学中的应用》这本书里都有

谢谢了楼主分享

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谢谢了楼主分享

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学习学习 rSVgWr8  

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