Plotting non-square array with contour

I am trying to make a projected 3D plot (contour plot) of a big array with matplotlib and it turned out like this:

I reckon it has something to do with defining the x and y axis. The code I have written for plotting is as following and the data is here:

def plotLikelihood(array,m,c):
xi, yi = np.linspace(m.min(), m.max(), 100), np.linspace(c.min(), c.max(), 100)
# Interpolate
rbf = scipy.interpolate.interp2d(m, c,array , kind='linear')
zi = rbf(xi, yi)
fig, ax = plt.subplots()
divider = make_axes_locatable(ax)
im = ax.imshow(zi, vmin=array.min(), vmax=array.max(), origin='lower',
extent=[m.min(), m.max(), c.min(),c.max()])
ax.set_xlabel(r"$Mass$")
ax.set_ylabel(r"$Concentration$")
ax.xaxis.set_label_position('top')
ax.xaxis.set_tick_params(labeltop='on')
cbar = fig.colorbar(im,cax=cax, ticks=list(np.linspace(array.max(), array.min(),20)),format='$%.2f$')
cbar.ax.tick_params(labelsize=8)
plt.close()


which the inputs of the function are m and c and given as following:

     m = np.linspace(0.01, 10, 10000)
Mass=1e15*m
Conc = np.linspace(2, 12, 1000)
likelihood=np.savetxt("Likelihood2d_MC_NoShapeNoise.txt")
plotLikelihood(likelihood,Mass,Conc)

-

Add keyword argument aspect='auto' to imshow (or do ax.set_aspect('auto') afterwards), and your worries are gone...
(Just one humble request: your sample code is almost self-contained and almost working. There are a few imports missing, and the last snippet has some typing mistakes. You could have reproduced the same phenomenon by replacing the 248 MB file by np.random.random((1000,10000)). These small things just make it a bit easier to debug.)