On strong coupling in nonrelativistic general covariant theory of gravity
arXiv:1106.1486 · doi:10.1103/PhysRevD.84.044051
Abstract
We study the strong coupling problem in the Horava-Melby-Thompson setup of the Horava-Lifshitz gravity with an arbitrary coupling constant $λ$, generalized recently by da Silva, where $λ$ describes the deviation of the theory in the infrared from general relativity that has $λ_{GR} = 1$. We find that a scalar field in the Minkowski background becomes strong coupling for processes with energy higher than $Î_Ï [\equiv (M_{pl}/c_1)^{3/2} M_{pl}|λ- 1|^{5/4}]$, where generically $c_1 \ll M_{pl}$. However, this problem can be cured by introducing a new energy scale $M_{*}$, so that $M_{*} < Î_Ï$, where $M_{*}$ denotes the suppression energy of high order derivative terms of the theory.
Some typos are corrected & new references added. revtex4, one figure. To appear in Physical Review D