2-mirror combinations

We've got to that point in our research, where we can do our own thing and be creative, while having our goal in mind.  I guess it's worth mentioning our goal again.  We are trying to obtain an ultra wide field of view with minimum/no distortion. Awesome, so let's get to work by which, of course, I mean let's combine any two mirror that we have been introduced to you in the past couple of weeks.

(1): The first 2-mirror combination that we looked at was a combination of the rectifying with the panoramic mirror.  we know that the rectifying mirror has an outstanding record for imaging the floor with the minimal distortion that is all lines are mapped to lines. We also remember that the panoramic mirror otherwise known as the wall-mirror could be used for imaging the surrounding walls.  So, by combining these two mirrors we should be able to image the floor and the surrounding wall and achieve an ultra field of view.

In order to achieve the above combination of mirrors, we find the point of intersection between the graphs of panoramic and rectifying mirror (we showed how to obtain the graphs of these mirrors in the previous posts). We cut the panoramic mirror before the point of intersection, so that we only have the rectifying mirror at first.  Then, after the intersection point, the rectifying mirror is cut so that there is only panoramic mirror.  In this manner, as the object moves from the floor to the walls, we image a hemisphere.  However, the farther we get from the center to the walls, the greater the distortion and the results are not satisfactory.

(2): The second mirror combination that we experimented with is the rectifying mirror and a linear mirror.  The steps in this experiment identical to the first case.  However, in this case, the linear mirror only changes the path of light and has no impact on the field of view and is therefore unhelpful.

(3): The third case involved combining the rectifying mirror with good old parabolic mirror. Surely you have noticed that all three of these cases have a rectifying mirror in their combination and the underlying reason for choice of mirror is that we have seen through our calculations and experiments that the rectifying mirror provides a perfect image of the floor plane.  Therefore, in our combinations we are just looking for a second mirror that increases our field of view to approximately 180 degree with minimum distortion. We considered using parabolic mirror in this combination because of its focal properties.  If you remember, in a parabolic mirror the light rays will always pass through its focus point. However, the image is very distorted in this case! The equation of the parabolic mirror used here is: