You can create something like the desired effect by being careful with the z-order of the lines and the fill_under:

```
import numpy as np
import matplotlib.pyplot as plt
fig = plt.figure(facecolor='k')
ax = fig.add_subplot(111, axisbg='k')
def fG(x, x0, sigma, A):
""" A simple (un-normalized) Gaussian shape with amplitude A. """
return A * np.exp(-((x-x0)/sigma)**2)
# Draw ny lines with ng Gaussians each, on an x-axis with nx points
nx, ny, ng = 1000, 20, 4
x = np.linspace(0,1,1000)
y = np.zeros((ny, nx))
for iy in range(ny):
for ig in range(ng):
# Select the amplitude and position of the Gaussians randomly
x0 = np.random.random()
A = np.random.random()*10
sigma = 0.05
y[iy,:] += fG(x, x0, sigma, A)
# Offset each line by this amount: we want the first lines plotted
# at the top of the chart and to work our way down
offset = (ny-iy)*5
# Plot the line and fill under it: increase the z-order each time
# so that lower lines and their fills are plotted over higher ones
ax.plot(x,y[iy]+offset, 'w', lw=2, zorder=(iy+1)*2)
ax.fill_between(x, y[iy]+offset, offset, facecolor='k', lw=0, zorder=(iy+1)*2-1)
plt.show()
```