plot the graph program
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program
l=6330*(10)^(-10);
k0=2*pi/l;
np=1.50;
n0=1.3707;
n1=1.3;
n2=1.59;
n3=1.45;
n4=3.46;
na=1.36;
t1=2.10e-6;
t2=0.198e-6;
t3=0.0012e-6;
t4=0.002e-6;
m=0;
max=0.01;
for a=11.392*(pi/180):0.1*(pi/180):80.264*(pi/180);
a1=a*(180/pi);
kx=k0*np.*sin(a);
k1=sqrt(n1.^2*k0^2-kx.^2);
k2=sqrt(n2.^2*k0^2-kx.^2);
k3=sqrt(n3.^2*k0^2-kx.^2);
k4=sqrt(n4.^2*k0^2-kx.^2);
m11= cos(t1*k1).*cos(t2*k2)-(k2./k1).*sin(t1*k1).*sin(t2*k2);
m12=(1/k2)*(cos(t1*k1)*sin(t2*k2)*1i) +(1/k1)*(cos(t2*k2)*sin(t1*k1)*1i);
m21= (k1)*cos(t2*k2)*sin(t1*k1)*1i +(k2)*cos(t1*k1)*sin(t2*k2)*1i;
m22=cos(t1*k1)*cos(t2*k2)-(k1/k2)*sin(t1*k1)*sin(t2*k2);
m34= cos(t3*k3)*cos(t4*k4)-(k4/k3)*sin(t3*k3)*sin(t4*k4);
m32=(1/k4)*(cos(t3*k3)*sin(t4*k4)*1i) +(1/k3)*(cos(t4*k4)*sin(t3*k3)*1i);
m23= (k3)*cos(t4*k4)*sin(t3*k3)*1i +(k4)*cos(t3*k3)*sin(t4*k4)*1i;
m33=cos(t3*k3)*cos(t4*k4)-(k3/k4)*sin(t3*k3)*sin(t4*k4);
M11=m11*m34+m12*m23;
M12=m11*m32+m12*m33;
M21=m21*m34+m22*m23;
M22=m21*m32+m22*m33;
g0=sqrt(kx.^2-k0^2*n0.^2);
ga= sqrt(kx.^2-k0^2*na.^2);
r=(na^2*g0*M11-n0^2*ga*M22+g0*ga*M12-na^2*n0^2*M21)./(na^2*g0*M11+n0^2*ga*M22+g0*ga*M12+na^2*n0^2*M21);
r1=conj(r);
rf=r.*r1;
if max< rf
max=rf;
end
end
for a=11.392*(pi/180):0.1*(pi/180):80.264*(pi/180);
m=m+1;
a1=a*(180/pi);
x(m)=a1;
x=(2*pi/l)*np*sin(a);
k1=sqrt(n1.^2*k0^2-kx.^2);
k2=sqrt(n2.^2*k0^2-kx.^2);
k3=sqrt(n3.^2*k0^2-kx.^2);
k4=sqrt(n4.^2*k0^2-kx.^2);
m11= cos(t1*k1).*cos(t2*k2)-(k2./k1).*sin(t1*k1).*sin(t2*k2);
m12=(1./k2)*(cos(t1*k1)*sin(t2*k2)*1i) +(1./k1)*(cos(t2*k2)*sin(t1*k1)*1i);
m21= (k1)*cos(t2*k2)*sin(t1*k1)*1i +(k2)*cos(t1*k1)*sin(t2*k2)*1i;
m22=cos(t1*k1)*cos(t2*k2)-(k1/k2)*sin(t1*k1)*sin(t2*k2);
m34= cos(t3*k3)*cos(t4*k4)-(k4/k3)*sin(t3*k3)*sin(t4*k4);
m32=(1/k4)*(cos(t3*k3)*sin(t4*k4)*1i) +(1/k3)*(cos(t4*k4)*sin(t3*k3)*1i);
m23= (k3)*cos(t4*k4)*sin(t3*k3)*1i +(k4)*cos(t3*k3)*sin(t4*k4)*1i;
m33=cos(t3*k3)*cos(t4*k4)-(k3/k4)*sin(t3*k3)*sin(t4*k4);
M11=m11*m34+m12*m23;
M12=m11*m32+m12*m33;
M21=m21*m34+m22*m23;
M22=m21*m32+m22*m33;
g0=sqrt(kx.^2-n0.^2*k0^2);
ga= sqrt(kx.^2-na.^2*k0^2);
r=(na^2*g0*M11-n0^2*ga*M22+g0*ga*M12-na^2*n0^2*M21)./(na^2*g0*M11+n0^2*ga*M22+g0*ga*M12+na^2*n0^2*M21);
r1=conj(r);
rf=r.*r1;
rf1=rf/max;
y(m)=rf1;
end
%plot(a,r)
x1=[]
y1=[]; %number of elements in x1 and y1 should be equal
plot(x,y,x1,y1,'rd');
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