The Holographic Principle and a Teapot
Image Credit:
Caltech
Sure, you can see the 2D rectangle of colors, but can you see deeper?
Counting color patches in the
featured image, you might estimate that the most
information that this 2D digital image can hold is about
60 (horizontal) x 50(vertical) x 256 (possible colors) = 768,000 bits.
However, the yet-unproven
Holographic Principle states that,
counter-intuitively, the information
in a 2D panel can include all of the information in a 3D room that
can be enclosed by the panel.
The principle
derives from the idea that the
Planck length, the length scale where
quantum mechanics begins to dominate
classical gravity, is one side of an area
that can hold only
about one bit of information.
The limit was first postulated by physicist
Gerard 't Hooft in 1993.
It can arise from generalizations from seemingly
distant speculation that the information held by a
black hole is determined not by its
enclosed volume but by the surface area of its
event horizon.
The term "holographic" arises from a
hologram analogy where three-dimension images are
created by projecting light through a flat screen.
Beware, some people
staring at the
featured image may not think it encodes just 768,000 bits -- nor even 2563,000 bit
permutations -- rather they might claim it
encodes a
three-dimensional
teapot.