A trick of the hat — finding the elusive einstein tile

Thursday, April 13, 2023

A nearly 60-year-old mathematical problem has finally been solved.

The story began last fall when David Smith, a retired print technician from Yorkshire, England, came upon a shape with a tantalizing property. The life-long tiling enthusiast discovered a 13-sided shape — dubbed the hat — that is able to fill the infinite plane without overlaps or gaps in a pattern that not only never repeats but also never can be made to repeat.

This elusive shape is known to mathematicians as an aperiodic monotile or an einstein, a clever pun that takes its name from the German words ein and stein that mean one stone.

“Dave and I had been in touch over the years and we belong to the same old-fashioned listserv for people interested in tiling, a mix of tiling enthusiasts, programmers and mathematicians,” recalls Cheriton School of Computer Science Professor Craig S. Kaplan, who collaborated with Smith, software developer Joseph Myers and mathematician Chaim Goodman-Strauss on the .

“Dave was on to something big, something historic, but he hit the wall on what he could deduce about this shape by working with paper cut-outs. He knew I had recently published a paper about a related topic for which I developed a piece of software that we could use to understand what his shape was doing. He sent me an email asking, ‘Hey, can you run this through your software and see what happens?’”

photo of Professor Craig S. Kaplan holding two einstein tiles

Professor Craig S. Kaplan holds two einstein tiles, a 13-sided shape he and his collaborators call the hat that can tile the plane indefinitely without the pattern ever repeating.

Professor Kaplan is interested in a broad range of interdisciplinary topics, with a particular focus on interactions between mathematics and art. He uses mathematical ideas to create tools and algorithms that generate ornamental patterns and that empower artists and designers. His work incorporates knowledge from computer graphics, classical and computational geometry, human-computer interaction, graph theory, symmetry and tiling theory, and perceptual psychology.

Read the full article on ݮƵ News

Watch Professor Kaplans interview with Brady Haran of about how this discovery came to be.

International coverage

Mass news media

  • , The New York Times, Siobhan Roberts
  • , The Guardian, Matthew Cantor
  • , The Times, Tom Whipple
  • , CNN, Jacopo Prisco

Specialist publications, presentations and tweet of note

  • , National Museum of Mathematics

    • (YouTube)

    • (YouTube)

  • , Quanta Magazine, Erica Klarreich
  • , Scientific American, Manon Bischoff
  • , Smithsonian Magazine, Will Sullivan
  • , Phys.org, Bob Yirka
  • , New Scientist, Matthew Sparkes