i copied it from the book i know the error is in the omega definition(line 12) but i dont know how to solve it please help

1 vue (au cours des 30 derniers jours)
abed
abed le 3 Déc 2013
Commenté : Afroja Akter le 12 Mai 2017
clear all;
distance=15;
beta2=1;
N=1;
mshape=input('m=0 for seech, m>0 for super-gaussian= ');
chirp0=0;
nt=1024;tmax=32;
stepnum=round(20*distance*N.^2);
deltaz=distance/stepnum;
dtau=(2*tmax)/nt;
tau=(-nt/2:nt/2-1)*dtau;
omega=(pi/tmax)*(0:nt/2-1) (-nt/2:-1);
if mshape==0
uu=sech(tau).*exp(-0.5i*chirp0*tau.^2);
else
uu=exp(-0.5*(1+1i*chirp0).*tau.^(2*mshape));
end
%%%%%
temp=fftshift(ifft(uu)).*(nt*dtau)/sqrt(2*pi);
figure;
subplot(2,1,1);
plot(tau,abs(uu).^2,'--k');hold on;
axis([-5 5 0 inf]);
xlabel('time');
ylabel('power');
title('input and output pulse shape and spectrum');
subplot(2,1,2);
plot(fftshift(omega)/(2*pi),abs(temp).^2,'--k');hold on;
axis([-.5 .5 0 inf]);
xlabel('frequency');
ylabel('power');
%%%%%
dispersion=exp(0.5*1i*beta2*omega.^2*delta2);
hhz=1i*N^2*deltaz;
%%%%%
temp=uu.*exp(abs(uu).^2.*hhz/2);
for n=1:stepnum
ftemp=ifft(temp).*dispersion;
uu=fft(f_temp);
temp=uu.*exp(abs(uu).^2.*hhz);
end
uu=temp.*exp(-abs(uu).^2.*hhz);
temp=fftshift(ifft(uu)).*(nt*dtau)/sqrt(2*pi);
subplot(2,1,1)
plot(tau,abs(uu).^2,'-k')
subplot(2,1,2)
plot(fftshift(omega)/(2*pi),abs(temp).^2,'-k')
  7 commentaires
Afficher 5 commentaires plus anciens
Walter Roberson
Walter Roberson le 12 Juin 2016
anu chauhan,
You have put at least one |(| in the wrong place. You have somehow made fftshift into a reference to a variable instead of making it a call to the MATLAB fftshift function. Perhaps
plot(fftshift(omega/(2*pi)), abs(temp).^2, 'k')
Afroja Akter
Afroja Akter le 12 Mai 2017
Hi ,
I solve this problem in Matlab, but my problem is when i try to solve in Fortran95. Could anybody help me in fft loop portion solution in fortran.
Thanking Afroja

Connectez-vous pour commenter.

Connectez-vous pour répondre à cette question.

Réponses (1)

Wayne King
Wayne King le 7 Déc 2013
Modifié(e) : Wayne King le 7 Déc 2013
I'm assuming that you are missing brackets around the vector in omega
distance=15;
beta2 = 1;
delta2=1;
N=1;
mshape=input('m=0 for seech, m>0 for super-gaussian= ');
chirp0=0;
nt=1024;tmax=32;
stepnum=round(20*distance*N.^2);
deltaz=distance/stepnum;
dtau=(2*tmax)/nt;
tau=(-nt/2:nt/2-1)*dtau;
omega=(pi/tmax)*[(0:nt/2-1) (-nt/2:-1)];
if mshape==0
uu=sech(tau).*exp(-0.5i*chirp0*tau.^2);
else
uu=exp(-0.5*(1+1i*chirp0).*tau.^(2*mshape));
end
%%%%%
temp=fftshift(ifft(uu)).*(nt*dtau)/sqrt(2*pi);
figure;
subplot(2,1,1);
plot(tau,abs(uu).^2,'--k');hold on;
axis([-5 5 0 inf]);
xlabel('time');
ylabel('power');
title('input and output pulse shape and spectrum');
subplot(2,1,2);
plot(fftshift(omega)/(2*pi),abs(temp).^2,'--k');hold on;
axis([-.5 .5 0 inf]);
xlabel('frequency');
ylabel('power');
%%%%%
dispersion=exp(0.5*1i*beta2*omega.^2*delta2);
hhz=1i*N^2*deltaz;
%%%%%
temp=uu.*exp(abs(uu).^2.*hhz/2);
for n=1:stepnum
ftemp=ifft(temp).*dispersion;
uu=fft(ftemp);
temp=uu.*exp(abs(uu).^2.*hhz);
end
uu=temp.*exp(-abs(uu).^2.*hhz);
temp=fftshift(ifft(uu)).*(nt*dtau)/sqrt(2*pi);
subplot(2,1,1)
plot(tau,abs(uu).^2,'-k')
subplot(2,1,2)
plot(fftshift(omega)/(2*pi),abs(temp).^2,'-k')
However there are other problems, nowhere do you define/compute what delta2 is. I have just set it equal to 1, but I have no idea, you'll have to figure that part out.
Also, there is mistake where f_temp is confused with ftemp.

Catégories

En savoir plus sur Spectral Measurements dans Help Center et File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by