Essentially, what i want to do is set up the initial conditions for an n-body simulation of a galaxy. The paper i tried to go by is found here http://arxiv.org/abs/1204.0513 .

The paper describes two density functions:

a surface density function of form rho(r) for density at distance r from the center

and a density function of form rho(r, z) with z being the z component in (x,y,z) coordinates.

What i did so far for each particle (star) was:

- use a monte carlo method with the first function to get a distance from the galaxy center
- use a monte carlo method with the second function to get a z component
- generate x,y coords randomly on a circle of radius r, at height z

But perhaps the code for this would be more helpful:

```
/* generate 3 random numbers x,y,z having a domain from 0 to 1 (not including 0.0) */
// The distance from the galaxy center for the current star.
// Rs is a constant parameter in the surface density function.
float r = -Rs * log(1.0f - x);
// The z coordinate for the current star
float Sz = -0.5f * (0.1f * Rs) * log(-((z-1)/z));
// The x,y coordinates for the current star
float Sx = sqrt(r*r - Sz*Sz) * cos(2.0f * PI * y);
float Sy = sqrt(r*r - Sz*Sz) * sin(2.0f * PI * y);
```

Visually, this produces the expected shape, until the obvious situation arises, namely if the generated Sz value is higher than the generated r value.

So my question is firstly if i'm even on the right track to begin with, and if so if anyone can either suggest a correction mechanism for the case i described above or an alternate method of generating these coordinates.