Because you don't seem to need any axes you can also use a normal projection, remove the axes and draw a circle. I had some fun and added some bonus ears, a nose and a color bar. I annotated the code, I hope it is clear.

```
from __future__ import print_function
from __future__ import division
from __future__ import absolute_import
import scipy.interpolate
import numpy
import matplotlib
import matplotlib.pyplot as plt
# close old plots
plt.close("all")
# some parameters
N = 300 # number of points for interpolation
xy_center = [2,2] # center of the plot
radius = 2 # radius
# mostly original code
meanR = [9.95184937, 9.87947708, 9.87628496, 9.78414422,
9.79365258, 9.96168969, 9.87537519, 9.74536093,
10.16686878, 10.04425475, 10.10444126, 10.2917172 ,
10.16745917, 10.0235203 , 9.89914 , 10.11263505,
9.99756449, 10.17861254, 10.04704248]
koord = [[1,4],[3,4],[1,3],[3,3],[2,3],[1,2],[3,2],[2,2],[1,1],[3,1],[2,1],[1,0],[3,0],[0,3],[4,3],[0,2],[4,2],[0,1],[4,1]]
x,y = [],[]
for i in koord:
x.append(i[0])
y.append(i[1])
z = meanR
xi = numpy.linspace(-2, 6, N)
yi = numpy.linspace(-2, 6, N)
zi = scipy.interpolate.griddata((x, y), z, (xi[None,:], yi[:,None]), method='cubic')
# set points > radius to not-a-number. They will not be plotted.
# the dr/2 makes the edges a bit smoother
dr = xi[1] - xi[0]
for i in range(N):
for j in range(N):
r = numpy.sqrt((xi[i] - xy_center[0])**2 + (yi[j] - xy_center[1])**2)
if (r - dr/2) > radius:
zi[j,i] = "nan"
# make figure
fig = plt.figure()
# set aspect = 1 to make it a circle
ax = fig.add_subplot(111, aspect = 1)
# use different number of levels for the fill and the lines
CS = ax.contourf(xi, yi, zi, 60, cmap = plt.cm.jet, zorder = 1)
ax.contour(xi, yi, zi, 15, colors = "grey", zorder = 2)
# make a color bar
cbar = fig.colorbar(CS, ax=ax)
# add the data points
# I guess there are no data points outside the head...
ax.scatter(x, y, marker = 'o', c = 'b', s = 15, zorder = 3)
# draw a circle
# change the linewidth to hide the
circle = matplotlib.patches.Circle(xy = xy_center, radius = radius, edgecolor = "k", facecolor = "none")
ax.add_patch(circle)
# make the axis invisible
for loc, spine in ax.spines.iteritems():
# use ax.spines.items() in Python 3
spine.set_linewidth(0)
# remove the ticks
ax.set_xticks([])
ax.set_yticks([])
# Add some body parts. Hide unwanted parts by setting the zorder low
# add two ears
circle = matplotlib.patches.Ellipse(xy = [0,2], width = 0.5, height = 1.0, angle = 0, edgecolor = "k", facecolor = "w", zorder = 0)
ax.add_patch(circle)
circle = matplotlib.patches.Ellipse(xy = [4,2], width = 0.5, height = 1.0, angle = 0, edgecolor = "k", facecolor = "w", zorder = 0)
ax.add_patch(circle)
# add a nose
xy = [[1.5,3], [2,4.5],[2.5,3]]
polygon = matplotlib.patches.Polygon(xy = xy, facecolor = "w", zorder = 0)
ax.add_patch(polygon)
# set axes limits
ax.set_xlim(-0.5, 4.5)
ax.set_ylim(-0.5, 4.5)
plt.show()
```