I'm resurrecting this thread to generate interest again. I've read all the posts here and and on other camera forums and also participated in telescope forums. I think I may have stumbled onto solutions to the problems listed in this thread, like the coma problem and why the .5 focal reducer wasn't 2x wider, fingers crossed. My Focal reducer arrived today and will be testing some things in the coming days. I am working the next two days and then heading to the South Dakota film festival for the weekend. I will try to squeeze my tests in before I leave, but if not I will be starting early next week at the latest.

Personally, I don´t think optical adjustment is the way to go if you want a wider FOV. And the assumption that the image gets brighter by a wider focal length is just plain wrong..

If anything, this would be the time to resurrect projection adapters for those who want to counter the 2x horizontal crop factor of the bmd and the gh3.

@psycho: Very true. That was how Zeiss managed to make their F0.7 lens, by using a focal reducer.

@balazer

The angle of view the sensor captures does change with a focal reducer - it changes a 50mm lens that is like a 100mm lens on m4/3 sensor, back to its original full frame FoV when used on m4/3. And that would be awesome ;-)

@balazer

The only characteristic of a lens is its focal length expressed in millimeters. The angle of view depends on the sensor/film size. You can have an ultra wide 50mm lens, just use it with a 20cm x 20cm photographic plate (you would need a lens with a big enough image circle so).

Thats why we all refere to a 50mm lens with a full frame sensor in mind - it wouldn't make any sense otherwise.

While this would be great on the gh2, it would be amazing on the BMC.

Psyco, I encourage you to go study the Wikipedia articles on focal length, image circle, field of view, angle of view, and also f-number while you're at it, because you stated the incorrect definition of f-number in another topic. I think you have an intuitive sense of what's going on, but you're using the wrong terms and expressions.

Forget the sensor for a moment. Hold the back of a lens up to a wall with a bright light in front of the lens, so that you can see the entire image projected by the lens on the wall. The image is a circle, and it's showing the lens's entire field of view. A lens has a field of view, independent of any sensor. If you do this with a 50-mm lens for a big view camera, the view is wide. If you do it with a 50-mm lens for a 35-mm photographic camera, it's a normal view. If you do it with a 50-mm lens for a 1/3-inch CCTV camera, it's a telephoto view. The lens's focal length is one property of a lens, and not the property that describes its angle of view. Angle of view is another property of a lens, and it can be expressed in degrees. The diameter of the image circle is another property, expressed in millimeters.

Adding a focal reducer creates a new lens system with a shorter focal length and a narrower image circle. Adding a focal reducer does not change a lens's angle of view.

Finally, when considering the effect of a sensor, if the sensor is not as wide as the image circle, then the angle of view of the camera system (sensor plus lens) will be narrower than of the lens itself.