[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 {H s""/sb  
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1、光疏射向光密 `84pql,  
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clear *0M#{HQ  
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close all G3&ES3L  
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n1=1,n2=1.45; tVQfR*=  
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theta=0:0.1:90; c/ %5IhX?  
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a=theta*pi/180; 6'ye-}vD-  
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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)); w~M5)

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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)); {L
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tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); HRi~TZ?\  

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ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); {n%-^9b1{&  
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figure(1) 9x.vz  
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subplot(1,2,1); t+Mr1e  
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plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) @8C^[fDL  
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legend('r_p','r_s','|r_p|','|r_s|') [YP8z~  
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xlabel('\theta_i') *JGm  
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ylabel('Amplitude') >JS\H6  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) ba|x?kz  
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axis([0 90 -1 1]) 
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grid on &5/`6-K  
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subplot(1,2,2); &J^@TgqL^  
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plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2) ,0[8/)$M  
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legend('t_p','t_s','|t_p|','|t_s|') {@g3AG%  
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xlabel('\theta_i') #0`2wuo {  
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ylabel('Amplitude') t)g1ICt  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) (Z.K3  
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axis([0 90 0 1]) TJ7on
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grid on ?yddr`?W  
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Rp=abs(rp).^2; aGNt?)8WPZ  
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Rs=abs(rs).^2; R|{AIa{}  
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Rn=(Rp+Rs)/2; /7|u2!#Ui  
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Tp=1-Rp; JO5~Vj_"  
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Ts=1-Rs; NWwfNb>  
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Tn=(Tp+Ts)/2; `kyr\+hp  
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figure(2) C2AP   
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subplot(1,2,1); cg7NtY  
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plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) \%&QIe;:k  
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legend('R_p','R_s','R_n') M
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xlabel('\theta_i') 9+@_ZI-  
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ylabel('Amplitude') ^w^cYM,  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) x*i5g`jx  
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axis([0 90 0 1]) +%
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grid on IyOujdKa  
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subplot(1,2,2); y2\, L  
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plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) "pdG%$  
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legend('T_p','T_s','T_n') {\`#,[  
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xlabel('\theta_i') PQ@(p%
 
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ylabel('Amplitude') Hh$D:ZO  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) `iv,aQ '  
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axis([0 90 0 1]) Da_g3z  
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grid on n0@e%=H)I  
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2、光密射向光疏 )e4nKh],  
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clear 9-Qub+0o  
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close all zRD{"uqi  
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n1=1.45,n2=1; ^WVH z;  
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theta=0:0.1:90; *'QD!Tc  
ljlQ9wb[s  
a=theta*pi/180; <S6|$7{1  

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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)); 'X<R)E  
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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)); DKF`uRvGN:  
qI) Yzc/  
tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); UKZsq5Q  
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ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); ZvkO#j  
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figure(1) i?A4uyYwS  
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subplot(1,2,1); 3EI$tP@4  
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plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) |*fGG?}  
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legend('r_p','r_s','|r_p|','|r_s|') wZ0$ylEX  
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xlabel('\theta_i') {Ymn_   
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ylabel('Amplitude') qYl%v  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) ido'<;4>  
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axis([0 90 -1.5 1.5]) @v2_gjRe  
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grid on Z7V1e<E  
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subplot(1,2,2); fx_7X15  
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plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2) Ww{bh-nyq  
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legend('t_p','t_s','|t_p|','|t_s|') N8@Fj!Zi  
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xlabel('\theta_i') K pDKIi  
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ylabel('Amplitude') 9G[!"eZ}  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) c/jU+,_g  
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axis([0 90 -0.5 3]) N<zD<q  
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grid on ^a0{"|Lq  
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Rp=abs(rp).^2; az*c0Z<pl  
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Rs=abs(rs).^2; IE+{W~y\  
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Rn=(Rp+Rs)/2; M2W4 RovfR  
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Tp=1-Rp; &xo_93  
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Ts=1-Rs; 3
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Tn=(Tp+Ts)/2; F{WV}o=MY  
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figure(2) ?1T)cd*  
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subplot(1,2,1); w[YiH $  
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plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) 84j6.\,  
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legend('R_p','R_s','R_n') `$*I%oT;  
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xlabel('\theta_i')  Sg  
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ylabel('Amplitude') :[xFp}w{  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) $9
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axis([0 90 0 1]) _JNSl2  
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grid on :d}I`)&  
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subplot(1,2,2); bWWZGl9  
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plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) hGh
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legend('T_p','T_s','T_n') bca4'`3\|  
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xlabel('\theta_i') e}>3<Dh  
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ylabel('Amplitude') 0h/bC)z  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) dyWj+N5(  
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axis([0 90 0 1]) 41G}d+  
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grid on >vQ8~*xd  
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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 1.M<u)1GU  

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