Published on Dec 21, 2011
Andrew Hanson, Professor of Computer Science at Indiana University:
Abstract:
Three decades ago, Alan Barr at CalTech introduced the computer graphics community to an influential
modeling technique that created smooth deformations by varying the power of the sphere's quadratic
algebraic equation. These socalled "superquadrics" eventually found their way
into the machine vision community, and were used extensively for modeling and recognition of generic
shapes. In 1990, we presented a paper, at the IEEE's very first Visualization Conference, in which we
fancifully toyed with the idea that Fermat's Last Theorem might have some connection
to complexified superquadrics. To support this idea, we developed extensive interactive 4D computer
graphics methods to display these bizarre shapes.
Our hopes were dashed when Fermat's theorem was actually proven by Andrew Wiles in 1995. However, the
graphical images motivated by complexified superquadrics rose from the ashes of Fermat's theorem when they
turned out to correspond exactly to the CalabiYau spaces embodying the "hidden
dimensions" of string theory. These images were included in Brian Greene's 1999
bestseller "The Elegant Universe" and since then have appeared in literally hundreds of
other venues, including Scientific American, a 2003 NOVA television special
on string theory, the cover image of ShingTung Yau's 2010 book "The Shape of Inner Space," and even a recent
London billboard advertisement.
In this talk, we will guide the audience through this improbable series of events with a wide variety of images and animations.
