Surveys in Mathematics and its Applications

ISSN 1842-6298 (electronic), 1843-7265 (print)
Volume 13 (2018), 131 -- 145

This work is licensed under a Creative Commons Attribution 4.0 International License.

WEAKENED GALLAI-RAMSEY NUMBERS

Gabrielle Beam and Mark Budden

Abstract. In the Ramsey theory of graphs, one seeks to determine the value of the Ramsey number r^t(n), defined to be the least natural number p such that every coloring of the edges of K_p using t colors results in a monochromatic copy of K_n in some color. In this paper, we demonstrate the standard techniques used for finding bounds for Ramsey numbers by combining two standard generalizations of r^t(n). First, we restrict our attention to Gallai colorings: those that avoid rainbow triangles. Within this setting, we then focus on finding subgraphs isomorphic to K_n that are spanned by edges using at most s ≤ t-1 colors. The resulting generalization of r^t(n) is called a weakened Gallai-Ramsey number, denoted gr_s^t(n). As such, we determine several explicit small values and prove a few general properties of such numbers.

2010 Mathematics Subject Classification: Primary 05C55; 05C15; Secondary 05C35; 05D10.
Keywords: Gallai colorings, lexicographic product, Ramsey number.

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Gabrielle Beam
Department of Mathematics and Computer Science
Western Carolina University
Cullowhee, NC, USA 28723
e-mail: gibeam1@catamount.wcu.edu

Mark Budden
Department of Mathematics and Computer Science
Western Carolina University
Cullowhee, NC, USA 28723
e-mail: mrbudden@email.wcu.edu
https://agora.cs.wcu.edu/\simmbudden/

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