My code has been modified according to many great suggestions from people in this forum. However, I still have some questions about the code. My code is:

```
from pylab import *
from numpy import *
N = 100 #lattice points per axis
dt = 1 #time step
dx = 1 #lattice spacing
t = arange(0, 1000000*dt, dt) #time
a = 1 #cofficient
epsilon = 100 #cofficient
M = 1.0 #cofficient
every = 100 #dump an image every
phi_0 = 0.5 #initial mean value of the order parameter
noise = 0.1 #initial amplitude of thermal fluctuations in the order parameter
th = phi_0*ones((N, N)) + noise*(rand(N, N) - 0.5) #initial condition
x, y = meshgrid(fftfreq(int(th.shape[0]), dx), fftfreq(int(th.shape[1]), dx))
k2 = (x*x + y*y) #k is a victor in the Fourier space, k2=x^2+y^2
g = lambda th, a: 4*a*th*(1-th)*(1-2*th) #function g
def update(th, dt, a, k2):
return ifft2((fft2(th)-dt*M*k2*fft2(g(th,a)))/(1+2*epsilon*M*dt*k2**2))
for i in range(size(t)):
print t[i]
if mod(i, every)==0:
imshow(abs(th), vmin=0.0, vmax=1.0)
colorbar()
show()
#savefig('t'+str(i/every).zfill(3)+'.png', dpi=100)
clf()
th=update(th, dt, a, k2)
```

When I run it, I have to close the figures one by one to see the changes. But I want to demonstrate the changes of the images in one figure. Any good ideas?