Stereo digital infrared.

by Donald E. Simanek.

This page requires a monitor width of at least 1000 pixels in order to see both images for cross-eyed stereo viewing. Since the photos also have large vertical dimension, it helps to toggle the "full screen" view (F11 in Windows). However, if you haven't mastered that viewing method, these may also be appreciated as 2d flat photos. All are copyright by Donald Simanek.

For instructions on free-viewing 3d by the cross eyed method, see the How to View 3D page.

Infrared Photography.

Our eyes see only a small portion of the spectrum of light. We do not perceive infrared or ultraviolet, but photographic films can, and so can digital camera sensors. Film photographers often used ultraviolet blocking filters to block UV that could record as blue on film. Infrared was not much of a problem for the films themselves weren't very sensitive to it. Special films were manufacturerd with enhanced infrared sensitivity for photographers who needed to record that portion of the spectrum. This was generally used in scientific and forensic applications. But pictorial photographers liked it for dramatic black and white pictures of scenery. Color infrared films were produced with the interesting feature that infrared was rendered as red, red as green, and green as blue. Blue was not recorded. These, too had both scientific and pictorial uses.

The more expensive digital cameras generally have filters over the sensors to block infrared. Some photographers who wish to photograph infrared will remove the filter (a job best left to a camera technician). But low-end, inexpensive cameras often omit the filter entirely, to keep costs down. This was especially the case a few years back, so if you have an old point and shoot inexpensive camera lying around, chances are good that it can photograph infrared.

You can find out by photographing the "invisible" infrared light from a television remote control.

But the sensor's sensitivity to visible light is so much greater than the IR sensitivity, that you must block the visible light, or most of it. You can use the same filters that film photographers used for that purpose. Kodak Wratten 87, 87A, 87B or 87C filters are a good choice, but similar filters are made by other companies. One can also used two linear polarizers with crossed axes as an IR filter. Some even have good results with a filter made from a frame of color photographic film that is unexposed and developed to opaque black.

What can you expect from an infrared photo? Here's a comparison of a stereo scene in color, and the same scene with a very inexpensive digital camera and 87B filter, using the "Cha-Cha" shift method. This was hand held, and some unsharpness is evident. The camera will autoexpose using a very slow shutter speed, so it is better to use a tripod and slide-bar.

Green trees and grass generally emit strongly in the infrared. Even the bronze colored leaves of the ornamental Japanese maple do. Blue sky does not, and generally appears black in infrared, causing white clouds to stand out dramatically. Infrared films were generally contrasty. To achieve the same result with a digital camera, it helps to boost the contrast with your photo software. Photographs will often show some range of colors, which may be desirable pictorially, but for "classic" look, convert the picture to black/white.

The wavelength of infrared is longer than that of visible light, so it refracts differently by the camera lens. The picture may be slightly less sharply focused. Inexpensive digital cameras may not have focus adjustment, but they usually have small apertures with great depth of field, so the results may still be quite acceptable.

Since your eyes can't see infrared, you can't know how the picture looks in infrared until you see it on the camera preview screen, or on the computer screen. Expect to discard many pictures to get a few good ones.

The number of photographers who do infrared photography is small. The number of stereo photographers is also small. The number who do infrared stereo is still smaller.

Infrared is especially good for landscape photography. Not so good for portraits, unless you want garish results.

Wide angle panoramic infrared photography

Here's an example of infrared landscape photography. It is a panoramic stitched from three separate photos of Lock Haven, PA in August, using Panavue software. The same inexpensive camera was used with 89B filter.

More cross-eyed stereos in 3d Gallery One.
Still more, mostly taken with a digital camera in 3d Gallery Two.
Stereo view cards in 3d Gallery Three.
Home-built digital stereo macro camera attachment 3d Gallery Four.
Review of the Loreo stereo attachment 3d Gallery Five.
The Loreo stereo attachment—improved 3d Gallery Five C.
The Loreo LIAC attachment as a 3d macro device, 3d Gallery Five D.
Wildlife photography in your backyard 3d Gallery Six.
A home-built digital stereo camera using mirrors 3d Gallery Seven.
Stereo macro photography in your garden 3d Gallery Eight.
Stereo macro photography in your aquarium 3d Gallery Nine
Shifty methods for taking stereo pictures.
Guidelines for Stereo Composition.
Return to the the 3d and illusions page.
Return to Donald Simanek's front page.

—Donald E. Simanek