Stony Brook University
has a new landmark—a gracefully contoured, intricately patterned ring that
rises 24 feet above its granite base. Installed
and dedicated
in October, this bronze sculpture is a visual testament to the beauty of mathematics.

Created by noted sculptor and mathematician Helaman Ferguson, the sculpture was
constructed from 144 bronze plates, each one unique and formed in a sandstone
mold carved to order by a computer-controlled robot at Ferguson's Baltimore warehouse studio. Baltimore Sun article.

*Helaman Ferguson stands with a completed portion of his*Umbilic Torus SC

*sculpture in his Baltimore warehouse studio*.

Titled

*Umbilic Torus SC*, this sculpture is a giant version of one of Ferguson’s signature pieces,*Umbilic Torus NC*, created in 1988.*One rendition of*Umbilic Torus NC,

*27 inches tall, stands in the lobby of MAA headquarters in Washington, D.C.*

The basic underlying form is a torus, but with a roughly
triangular rather than a circular cross section.

*This assemblage of bronze plates shows the curved triangular cross section of the sculpture.*

The triangular cross section has three inwardly curving sides, which correspond to a curve called a hypocycloid. In this case, the curve is the path followed by a point on the circumference of a small circle that, in turn, is rolling inside a circle three times as wide. The result is a curve with three cusps, known as a deltoid.

*As shown in this model, the Stonybrook sculpture's granite base shows this curve.*

Imagine sweeping this curved triangle through space while
rotating it by 120 degrees before the ends meet to form a loop. The result is
one continuous surface, and the three cusps, as seen in the cross section, lie
on the same curve. In other words, a finger tracing the cusp-defined rim
travels three times around the ring before ending up back at its starting
point. The term “umbilic”
in this context refers to the particular way in which the torus is twisted to
give this property.

The sculpture’s surface is covered by an approximation of a
surface-filling curve know as the Peano-Hilbert curve.
After a few steps, the pattern looks like an intricate but highly regular maze.

*After four stages (iterations), the Peano-Hilbert curve begins to look like a maze.*

Rendered in bronze, it gives the sculpture a distinctive surface relief pattern—a
continuous trail that echoes Mayan pictographic writing or ancient Chinese
bronze vessels. Ferguson adapted this pattern to curved contours of his
sculpture.

Commissioned by Jim Simons and the Simons Foundation,

*Umbilic Torus SC*took nearly two years to complete. The project involved not only Ferguson but also a team of engineers, welders, programmers, and others, who had to cope with one challenge after another. Even the problem of moving the massive sculpture from Baltimore to Stony Brook caused much head scratching and required considerable ingenuity to solve.
The official dedication
(video) of the
sculpture took place on October 25, 2012.

**References**:

Ferguson, C. 1994.

*Helaman Ferguson: Mathematics in Stone and Bronze*. Meridian Creative Group.
Ferguson, H. 1990. Two theorems, two sculptures, two
posters.

*American Mathematical Monthly*97(August-September):589.610.
Peterson, I. 2001.

*Fragments of Infinity: A Kaleidoscope of Math and Art*. Wiley.
Photos by I. Peterson