What is happening is that you want to add some rotation to the current orientation, and setting the variable `looker.rotation.z`

means other thing.

At the end, to calculate the rotation matrix of the looker, there will be something like (pseudocode: the functions are not these, but you get the idea):

```
this.matrix.multiply( makeXRotationMatrix(this.rotation.x) )
this.matrix.multiply( makeYRotationMatrix(this.rotation.y) )
this.matrix.multiply( makeZRotationMatrix(this.rotation.z) )
DrawGeometry(this.geom, this.matrix)
```

and composition of rotations are not intuitive. This is why it doesn't seem to follow any axis system.

If you want to apply a rotation in some axis to the existing matrix, it can be made with the functions `rotateX (angle)`

, `rotateY (angle)`

, `rotateZ (angle)`

, and `rotateOnAxis (axis, angle)`

. `axis`

can be a `THREE.Vector3`

.

Changing directly `looker.rotation.z`

works because it is the nearest rotation to the geometry, and it will not be affected by the other rotations (remember that transformation matrices apply in inverse order, e.g. `T*R*G`

is `R`

otating the `G`

eometry, and then, `T`

ranslating it).

## Summary

In this case I suggest not to use the line:

```
looker.rotation.z += 0.05;
```

Use

```
looker.rotateZ (0.05);
```

or

```
looker.rotateX (0.05);
```

instead. Hope this helps :)