So what are holograms? The best way to think of a hologram is to
envision them as impressions on light waves.
Light is a wave. All waves behave more or less the same. For one thing
they tend to echo. They reflect off of many surfaces. Sort of like
sound waves echoing to make SONAR or microwaves in RADAR. The wave is
sent out; it hits an object; it bounces back. Pretty simple idea. But
what you don't think about is that when a wave bounces up against an
object it takes its shape. Like pressing a piece of clay up against a
key. The key leaves a three dimensional impression in the clay. Well
if you imagine the clay as a light wave, basically the idea of
holography is throwing the clay up against the key, having the key make
an impression on the front of the clay, letting it bounce off, and
finally storing the shape of the clay permanently.
Now with SONAR or RADAR we are dealing with waves that are not visible.
You can't see sound waves or microwaves. However with light waves we
are working in the visible spectrum and consequently things that are
visible are things that tend to record on photographic film. So in
effect, a hologram is a photograph of the impression left on the surface
of a light wave after it has bounced off an object.
Lets look at a hologram recorded on silver halide film. What is film?
Well, first there is a base material of clear plastic or glass. Then
there is a very important layer that contains the photoreactive
chemistry. They call it the emulsion. Its a very special composition.
And there's always room for it. Its jello. Plain old gelatin, without
any flavor or color of course. Inside the gelatin there are two
chemicals joined in a molecule. The are suspended like fruit in jello.
In an emulsion, each chemical retains its own identity. Just like each piece
of fruit floating in the jello does. First, there's silver. As we all know
silver has a very unique property. It tarnishes when it combines with
oxygen. And it turns black. Next, there's iodine. The stuff you use
to kill the germs on a cut. Its a very reactive chemical. So reactive
that when it mixes with the silver to make silver iodide, it results in
a silver that will tarnish very quickly.
When a light wave goes into this layer of jello its energy is
transferred to the silver iodide molecule. Remember how a light wave
looks like a corkscrew? Well, try to imagine this corkscrew winding up
its energy into the silver iodide molecule just like a wind-up toy. You
give it a good twist and the energy goes into making the toy run. In
the case of the silver iodide molecule you give it a good wind up of
light energy. Its sort of like setting a bear trap. Your are putting
your energy into pulling the trap open. Now its set to snap shut. The
same thing is happening in the silver iodide molecule. Light gives it
energy to be ready to snap onto another atom. When you put it in a bath
of photographic developer, it grabs hold of the oxygen in the bath, and
tarnishes. That's why black and white negatives are black. And so are
holograms before they are bleached. So, you can think of photography or
by extension holography as the art of selectively tarnishing silver in
jello where light has energized it.
Now in the case of a hologram, the patterns of light wave impressions
are what is being photographed in the layer of emulsion. Generally film
emulsion in holography runs about 10 microns thick. A micron being a
millionth of a meter (a meter is about a yard) in size. That's pretty
small, but a photon measures about a half of a single micron in size.
That's smaller than an ants asshole. So the emulsion seems pretty large
to a photon. That's how we are able to photograph this microscopic wave
impression in film and make holograms. Holograms are photographs of the
three dimensional impressions stored on light waves. Sort of like
fossils.
When you pour plaster into a fossil, let it harden, and then remove it,
you have a three dimensional sculpture of the impression that was left
in the stone. Similarly, when you pour jello into a jello mold, let it
set, and then remove it, you have a three dimensional sculpture of the
shape of the jello mold. And when you put light into a hologram, you
get a three dimensional sculpture in light of the object that left its
impressions on a photon and was captured within the thickness of a
photographic emulsion.
Of course, there is a trick to this. Its called interference
Frequently Asked Questions
Holography Helpers - Table of Contents
Holography Catalog
Holographic Studios Home Page
©Holographic Studios
May, 1997