[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 .|-l+  
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1、光疏射向光密 3`fJzS%O  
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clear f2O*8^^Y{Q  
Y^f94s:2S  
close all ePq13!FC/  
-t@y\vZF,  
n1=1,n2=1.45; cPq Dsl3  
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theta=0:0.1:90; Sa;<B:|  
11)/] ?/j  
a=theta*pi/180; $hjP}- oUX  
r zMFof  
rp=(n2*cos(a)-n1*sqrt(1-(n1/n2*sin(a)).^2))./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); Pt6hGSo.  
aNE9LAms  
rs=(n1*cos(a)-n2*sqrt(1-(n1/n2*sin(a)).^2))./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); 3XeXzPj  
4<G?  
tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); t."g\;  
m]FaEQVoE  
ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); N5 SLF4R1  
e2AN[Ar  
figure(1) j+DE|Q&]I  
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subplot(1,2,1); Iv$:`7|crX  
~L%Pz0Gg  
plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) &W=V%t>Z  
;wij}y-6  
legend('r_p','r_s','|r_p|','|r_s|') E?30J3S  
r0\cc6  
xlabel('\theta_i') _0'm4?"  
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ylabel('Amplitude') hLb;5u&!kW  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) ]y3pE}R  
kOs(?=  
axis([0 90 -1 1]) yicO!:bM  
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grid on ^FP} qW~;9  
JDLTOLG  
subplot(1,2,2); $_Y/'IN`k  
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Rcb  
plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2) {S[I_\3  
3B@y &a#&  
legend('t_p','t_s','|t_p|','|t_s|') wYZT D*A2h  
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xlabel('\theta_i') 06 QU  
"pt+Fe|@c;  
ylabel('Amplitude') P!kw;x  
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) kf<c,3A  
S8 :"<B)  
axis([0 90 0 1]) i 3m3zXt  
_i5mC,OffN  
grid on a%Uw;6|{  
]JOephX2R  
Rp=abs(rp).^2; kmryu
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HbcOTd)=5  
Rs=abs(rs).^2;
!7}IqSs  
o4$Ott%Wm  
Rn=(Rp+Rs)/2; \[:PykS  
6SE6AL<b  
Tp=1-Rp; <3d;1o  
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Ts=1-Rs; =WC-Sj{I  
/QQ8.8=5  
Tn=(Tp+Ts)/2; [+;qWfs B  
_w5RK(  
figure(2) _@Y"$V]=Vt  
CJJD@=  
subplot(1,2,1); m9Ax\lf  
CdY8#+"  
plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) Mtm/}I  
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legend('R_p','R_s','R_n') (ab{F5  
Bs[nV}c>>  
xlabel('\theta_i') 9Gca6e3  
/RGNAHtIi  
ylabel('Amplitude') F!JJ6d53y  
jk$86ma!  
title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) zrs<#8!Y_!  
$(ewk):  
axis([0 90 0 1]) bp#:UUO%S  
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grid on p~K9 B-D  
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subplot(1,2,2); h{k_6ym  
%JtbRs(~q  
plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) VU|;:  
v!H:^!z  
legend('T_p','T_s','T_n') bLqy!QE  
(zG.aaz*C  
xlabel('\theta_i') $J.T$0pFa  
IS BV%^la|  
ylabel('Amplitude') ~]
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Y>BP?l  
title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) JWROYED  
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axis([0 90 0 1]) #]9hTa IR  
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grid on &-%X:~|:X  
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2、光密射向光疏 ]3Dl)[R   
;heHefbvvd  
clear gRJfX%*F  
p?X02 >yA  
close all fNu'((J-  
9\;|x  
n1=1.45,n2=1; ILw
n&[A0  
v$wBxCY  
theta=0:0.1:90; ?=;qK{)37  
^pnG0(9  
a=theta*pi/180; BZv+H=b  
:_kAl? eJ  
rp=(n2*cos(a)-n1*sqrt(1-(n1/n2*sin(a)).^2))./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); N#C1-*[C  
%\$;(#h  
rs=(n1*cos(a)-n2*sqrt(1-(n1/n2*sin(a)).^2))./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); *&Lq!rFS  
BV`-=wRC  
tp=2*n1*cos(a)./(n2*cos(a)+n1*sqrt(1-(n1/n2*sin(a)).^2)); $2~\eG=u H  
IJIzXU  
ts=2*n1*cos(a)./(n1*cos(a)+n2*sqrt(1-(n1/n2*sin(a)).^2)); >q~l21dUi  
w$Ot{i|$(  
figure(1) AJ^#eY5  
)yK[Zb[  
subplot(1,2,1); 8qEK+yi,  
ra N)8w}-  
plot(theta,rp,'-',theta,rs,'--',theta,abs(rp),':',theta,abs(rs),'-.','LineWidth',2) A'&n5)tb  
9Z5D\yv?H  
legend('r_p','r_s','|r_p|','|r_s|') m
qff]m  
@4$\ 5%j  
xlabel('\theta_i') +>~?m*$  
0c^>eq]  
ylabel('Amplitude') 7Q w|!  
<#GB[kQa  
title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) ._9 n~=!  
fFvF\  
axis([0 90 -1.5 1.5]) '_k+WH&  
`1OgYs  
grid on wCf~O'XLw  
9[c%J*r
 
subplot(1,2,2); jw}}^3.  
r|e-<t4.9L  
plot(theta,tp,'-',theta,ts,'--',theta,abs(tp),':',theta,abs(ts),'-.','LineWidth',2) dC\ZjZZ  
9+s.w25R  
legend('t_p','t_s','|t_p|','|t_s|') 73#x|lY  
E{^XlY  
xlabel('\theta_i') Eodn/  
G$0c'9d*(  
ylabel('Amplitude') ^.k |SK`U  
p!O(Y6QM  
title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) {j5e9pg1L|  
`U#55k9^5  
axis([0 90 -0.5 3]) ##Q/I|  
1i:|3PA~  
grid on 4'4\,o  
3kcTE&1^  
Rp=abs(rp).^2; CC\*?BKj"  
n+lOb  
Rs=abs(rs).^2; /xGmg`g<#  
I):!`R.,  
Rn=(Rp+Rs)/2; joKIrS0y  
8d*/HF)h  
Tp=1-Rp; 5zFR7/p{  
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Ts=1-Rs; b"!Q2S~  
*BuUHjTv  
Tn=(Tp+Ts)/2; \Y6WSj?E  
c|F[.;cR  
figure(2) Le<wR  
A;\7|'4  
subplot(1,2,1); t#%R q  
/kt2c[9  
plot(theta,Rp,'-',theta,Rs,'--',theta,Rn,':','LineWidth',2) 322jR4QGr  
`qd+f{Q  
legend('R_p','R_s','R_n') uVzFsgBp  
<E\$3Ym9  
xlabel('\theta_i') 5JEbe   
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3ZX:  
ylabel('Amplitude') sY?,0T_m  

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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) mUS_(0q  
:qChMU|Y6  
axis([0 90 0 1]) 5_XV%-wM  
&Tl 0Pf  
grid on z
IP6\u  
pv^O"Bs  
subplot(1,2,2); '*\|;l#1  
>^XBa*4;Y  
plot(theta,Tp,'-',theta,Ts,'--',theta,Tn,':','LineWidth',2) z]b>VpW:  
#2r}?hP/m  
legend('T_p','T_s','T_n') >#,G}xf  
Ag F,aZU  
xlabel('\theta_i') atXS-bg*  
Y&/]O$<  
ylabel('Amplitude') rQ7+q;[J  
b~nAP
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title(['n_1=',num2str(n1),',n_2=',num2str(n2)]) Us+pc^A  
bdGIF'p%  
axis([0 90 0 1]) |9~GM  
~z"=G5|  
grid on kcb.Wz~=  
NPFpq,P>  

图片:jpeg2.jpg

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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

thanks

谢谢了楼主分享

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