3D Anaglyph Camera Attachment!

This device lets you take 3D anaglyph photos and movies with an ordinary camera. The parts cost about $30. It's pretty simple to build and you don't need any special software or camera equipment. Please let me know if you have any improvements on this design.

Newsflash! The photos below show a slide viewer that allows you to view a single slide with both eyes. It might have similar optics to the device in this Instructable. I suggest trying the following:

1. order a slide viewer on e-bay for $10-20.
2. cut the viewer in half along the slot for the slide.
3. cover the eye holes with the red and blue colored filters.
4. put your camera where the slide goes and take a photo.

Please let me know if this works.

Before you start, take a look at the photos on the following website to get an idea of the steps. www.gibbondesign.com/anaglyph/index.htm

+ 3D viewing glasses (I used the cyan and red glasses from American Paper Optics). You can also make your own with the filter material below.
+ Black mat board from an art store.
+ Red filter material that matches the filters on the 3D glasses (Roscolux #26 matches typical stock glasses available at a stage lighting store)
+ Cyan (blue) filter material that matches the filters on the 3D glasses (Lee #354 matches the cyan filters on most stock glasses available at a stage lighting store)
+ Some 5mm or 1/4" fiberboard.
+ Beamsplitter (50%) 76x102x3mm (Anchor Optical B27122)
+ Mirror 76x114x3mm (Anchor Optical B20850)
+ Four matching (76mm) posts (optional)
+ A sharp utility knife

If the optics listed above aren't available, try to purchase optics with similar dimensions. Anchor Optics is a cheap source:
Beamsplitters (find a beamsplitter about a 50/50 reflection/transmission ratio)
http://www.anchoroptics.com/catalog/product.cfm?id=259
Try to find a mirror with a matching height to the beamsplitter:
http://www.anchoroptics.com/catalog/product.cfm?id=272
You would need to adjust the mirror and beamsplitter holder to fit the new dimensions (i.e. the grooves should accommodate the thickness and the height and width might change). If you make one with different optics, please let me know how it works.

Print the template from www.gibbondesign.com/anaglyph.pdf onto a sheet of A4 size paper (you can also print it on 8.5" x 11" paper and scale it to the correct size using the dimensions on the paper)

Tape the template (double sided tape works well) for the inner and outer boards on the fiberboard and use a jigsaw to cut these pieces. You can use a sander to get rid of the jagged edges. Use glue or double sided tape to stick the inner and outer boards together. Place the mirror and beamsplitter in the groves on the inner board while the glue or tape is setting.

If you want a sturdier device, you can place 76mm standoffs between the fiberboard pieces. The cross hairs on the template should be used to mark the holes for the standoffs (I used a 4mm drill with M4 screws).

Now it's time for the assembly. Position the mirror and beamsplitter between the top and bottom fiberboard panels so that they are sitting in the slots. If you used a first surface mirror (recommended), make sure the reflective side is facing the beamsplitter (you can test this by placing your finger against the glass; the side that doesn't give you a double image is the reflective side).

Position the wall panels around the assembly. Tape the top and bottom of the wall panels to the fiberboard panels. Congratulations! You're done.

Now it's time to take some photos. I find it best to turn off the flash and zoom in as close as possible. Then put the camera lens through the hole and shoot. Make sure you have a LOT of natural light.

I was able to shoot digital photos and video and view the images on computer and prints. Good Luck!

The mirror and beamsplitter are about 2.5" apart. That's an average distance between an adult's eyes. The mirror is reflecting what your right eye would see into the photo. The beamsplitter reflects 50% of what's in front of it and let's 50% through to the camera lens, so you get equal amount of the red and blue images.

The filters are allowing the red part of the spectrum into the part of the photo that your right eye would be seeing and the blue filter is only allowing the blue light into the part of the photo that your left eye would see. When you view the photo, you don't want your right eye to see the left eye (blue) image, so you erase it by placing the same blue filter in front.