[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 C2NJrg4(  
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1、光疏射向光密 rT9
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clear /Aooh~  
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close all Aq@_^mq1A  
Sr Z\]  
n1=1,n2=1.45; 3CK4a,]Dm  
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theta=0:0.1:90; 2j&-3W$^  
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a=theta*pi/180; _\waA^ F  
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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)); Fn.wd`'0  
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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)); 6C@,&2<yK  
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tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); *@[DG)N  
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ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); j3jf:7 /\  
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figure(1) l&2A]5C  
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subplot(1,2,1);  F* "  
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plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) {)nm {IV,  
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legend('r_p','r_s','|r_p|','|r_s|') :%cL(',Q  

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xlabel('\theta_i') &m2FEQLj  
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ylabel('Amplitude') %>Z;/j|#r  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) Hv2t_QjKT  
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axis([0 90 -1 1]) MUsF/1  
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grid on T[*1*303  

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subplot(1,2,2); S\=j; Uem  
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plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2) Kcv7C{-/  
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legend('t_p','t_s','|t_p|','|t_s|') Y-\/Y*;cd  
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xlabel('\theta_i') O|j(CaF  
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ylabel('Amplitude') 1M+o7HO.mG  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) R{Q*"sf  
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axis([0 90 0 1]) (#x<qi,T  
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grid on EUH&"8 L  
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Rp=abs(rp).^2; ParOWs~W/  
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Rs=abs(rs).^2; 1xN6V-qk  
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Rn=(Rp+Rs)/2; ^UI{U1N~Bz  
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Tp=1-Rp; s%F}4W2s  
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Ts=1-Rs; vf6_oX<Os  
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Tn=(Tp+Ts)/2; U6^x(2De  
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figure(2) A;~lG3j4  
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subplot(1,2,1); qgREkb0  
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plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) N~7xj?  
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legend('R_p','R_s','R_n') 9gP-//L@  
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xlabel('\theta_i') f P'qUN  
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ylabel('Amplitude') :pj00  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) x\taG.'zX  
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axis([0 90 0 1]) ^Ud1 ag!-  
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grid on _'
pow&w~  
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subplot(1,2,2); WJH-~,u  
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plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) k#mQLv  
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legend('T_p','T_s','T_n') 0>@D{_}s  
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xlabel('\theta_i') K_/-mwA v  
vv='.R, D  
ylabel('Amplitude') VB 53n'  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) j{k]8sI,H]  
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axis([0 90 0 1])  mZGAl1`8  
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grid on oU/CXz?H  
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2、光密射向光疏 =&Dt+f&  
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clear +Fn^@/?yC  
ryhme\%l;f  
close all Kob i!  
kjCXP  
n1=1.45,n2=1; |>w>}w`~  
pwj?  
theta=0:0.1:90; t9zPUR  
1oD1ia#  
a=theta*pi/180; RM^3Snd=V  
2'R;z<_  
rp=(n2*cos(a)-n1*sqrt(1-(n1/n2*sin(a)).^2))./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); .I~#o$6  
:.;pRz  
rs=(n1*cos(a)-n2*sqrt(1-(n1/n2*sin(a)).^2))./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); (_:k s  
jg2UX  
tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); (~C_zG  
f?KHp|  
ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); xZmO^F5KHj  
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figure(1) }b$?t7Q)  
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subplot(1,2,1); X5s.F%Np!  
_e2=BE`W)  
plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) |r5e#3w  
rE:"8d}z  
legend('r_p','r_s','|r_p|','|r_s|') 5|T[:m  
yr4j  
xlabel('\theta_i') +>zjTP7\e"  
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ylabel('Amplitude') dv?ael^  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) {zTo[i  
+ F{hFuHV  
axis([0 90 -1.5 1.5]) "c0I2wq  
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grid on MCPVql`+`q  
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subplot(1,2,2); R`IFKmA EJ  
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plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2) QNH-b9u>8  
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legend('t_p','t_s','|t_p|','|t_s|') DC&3=Nd  
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xlabel('\theta_i') 3K8#,TK3  
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ylabel('Amplitude') 4trP*u,4  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) 3YKJN4  
pUGFQ."\  
axis([0 90 -0.5 3]) 2)iwAu   
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grid on )[t zAaP7  
SG5GJCkc  
Rp=abs(rp).^2;  U(d K  
n!Dr:$  
Rs=abs(rs).^2; 3MmpB9l#H  
I_/E0qSJI  
Rn=(Rp+Rs)/2; d8)ps,  
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Tp=1-Rp; 9<e%('@[  
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Ts=1-Rs; 0XcH  
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Tn=(Tp+Ts)/2; uwL^Tq}Yh  
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figure(2) m1 tYDZ"
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xj ?#
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subplot(1,2,1); [NxC7p:Lo  
KQf=t0Z=Ce  
plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) J]!&E~Y  
s6DmZ^Y%  
legend('R_p','R_s','R_n')  Kl'u  
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xlabel('\theta_i') |;(95  
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ylabel('Amplitude') EbfE/_I  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) <UEt
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(&B`vgmb  
axis([0 90 0 1]) 'bd|Oww1u  
@#j?Z7E|  
grid on H|.cD)&eYy  
ir{li?kV  
subplot(1,2,2); rWP -Rm  
tk5zq-/d  
plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) xg^Z. q)d  
CE|iu!-4  
legend('T_p','T_s','T_n') f@j)t%mh  
zao=}j?  
xlabel('\theta_i') 8PB 8h  
m8T< x>  
ylabel('Amplitude') {vhP'!a6W  
1_jd1UT  
title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) v
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x 8/I"!gI  
axis([0 90 0 1]) XkEJ_;:  
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grid on =pCO1<wR  
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MQY}}a-oug  

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

thanks

谢谢了楼主分享

学习学习

学习学习 &F8*>F^7  

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