OK, here's my stab at your problem. This is the experimental script I've been using:
%%# first part
%#------------------
clf
%# use cylinder to get unit cone
[x,y,z] = cylinder( linspace(1, 0, 1e3), 1e3);
%# intersect the cone with this surface
inds = z < (cos(x).*sin(pi*y/2)+1)/4;
x(inds) = NaN; %# remove all corresponding
y(inds) = NaN; %# indices, in all arrays
z(inds) = NaN;
%# Now plot the cone. Note that edges are ugly when
%# using a large number of points
surf(x, y, z, 'edgecolor', 'none');
%%# second part
%#------------------
hold on
%# the surface to intersect the cone with
f = @(x,y) (cos(x).*sin(pi*y/2)+1)/4;
%# add the surfacfe to the cone plot
[x,y] = meshgrid( linspace(-1,1, 1e3) );
surf(x,y, f(x,y), 'edgecolor', 'none')
The first part shows a cone intersected with a curve. You might want to tinker a bit with the curve to get the overall shape right, which is what the second part is for.
If you want a paraboloid (or other), just use
[x,y] = meshgrid( linspace(-1,1, 1e3) );
z = 1-x.^2-y.^2; %# or whatever other equation
instead of the cylinder
command.