Line 11: Line 11:
 
[[Walther_MA271_Fall2020_topic27|Penrose Tiling Home]]
 
[[Walther_MA271_Fall2020_topic27|Penrose Tiling Home]]
  
[[MA271Fall2020Walther_Topic27_Rules for Penrose Tiling|Previous Section: Rules for Penrose Tiling]]
+
[[MA271Fall2020Walther_Topic27_Rules for Generating Penrose Tilings|Previous Section: Rules for Generating Penrose Tilings]]
  
 
_________________
 
_________________
  
 
[[Category:MA271Fall2020Walther]]
 
[[Category:MA271Fall2020Walther]]

Revision as of 20:38, 6 December 2020

INFLATION AND DEFLATION

An interesting facet of Penrose tilings is that there are infinitely many of them. This can be proven by examining a phenomenon, called inflation and deflation, that was discovered by Roger Penrose himself. Inflation essentially turns the tiling into a less complex version of itself; the size of the tiling stays constant but the prototiles themselves are larger pieces. Deflation does the opposite; it splits the tiles of the tiling into smaller shapes that form a different pattern that is more refined.

The specific transformation is described as follows by Gardner: “Imagine that every dart is cut in half and then all short edges of the original pieces are glued together. The result: a new tiling... by larger darts and kites.” Deflation is the same process but in reverse. These operators do not maintain tile boundaries but do maintain half tiles.

A way to describe this process for the Penrose tiling that uses rhombi is by substituting triangles. Recall that this type of tiling is made up of two rhombi: a thick one and a thin one, each consisting of two isosceles triangles. The deflation process consists of breaking each of these triangles down into combinations of smaller versions of these triangles. See below: the left figure has the four different triangles that make up the rhombi shapes. The right picture shows each of the four triangles split into substitutions, consisting of smaller triangles arranged together (Schweber).

Penrose Tiling Home

Previous Section: Rules for Generating Penrose Tilings

_________________

Alumni Liaison

Questions/answers with a recent ECE grad

Ryne Rayburn