D. Conlon, W. T. Gowers, W. Samotij, M. Schacht
Published 2013-05-11Version 1
The K{\L}R conjecture of Kohayakawa, {\L}uczak, and R\"odl is a statement that allows one to prove that asymptotically almost surely all subgraphs of the random graph G_{n,p}, for sufficiently large p : = p(n), satisfy an embedding lemma which complements the sparse regularity lemma of Kohayakawa and R\"odl. We prove a variant of this conjecture which is sufficient for most known applications to random graphs. In particular, our result implies a number of recent probabilistic versions, due to Conlon, Gowers, and Schacht, of classical extremal combinatorial theorems. We also discuss several further applications.
A new proof of the KŁR conjecture
The scaling window for a random graph with a given degree sequence
On the tree-depth of Random Graphs
![QR code for arXiv:1305.2516 [math.CO]](http://oss.arxitics.com/images/favicon.svg)