THE PHASE TRANSITION FOR DYADIC TILINGS
Journal article, 2014
A dyadic tile of order n is any rectangle obtained from the unit square by n successive bisections by horizontal or vertical cuts. Let each dyadic tile of order n be available with probability p, independent of the others. We prove that for p sufficiently close to 1, there exists a set of pairwise disjoint available tiles whose union is the unit square, with probability tending to 1 as n -> infinity, as conjectured by Joel Spencer in 1999. In particular, we prove that if p = 7/8, such a tiling exists with probability at least 1 - (3/4)(n). The proof involves a surprisingly delicate counting argument for sets of unavailable tiles that prevent tiling.
UNIT SQUARE
generating
function
ZERO-ONE LAW
phase transition
tiling
percolation
Dyadic rectangle
Author
O. Angel
A. E. Holroyd
G. Kozma
Johan Wästlund
Chalmers, Mathematical Sciences, Mathematics
University of Gothenburg
P. Winkler
Transactions of the American Mathematical Society
0002-9947 (ISSN) 1088-6850 (eISSN)
Vol. 366 2 1029-1046Subject Categories
Mathematics
DOI
10.1090/S0002-9947-2013-05923-5