Topcolor Dynamics and The effective gluon-gluon-Higgs Operator

Abstract

We discuss the production of the composite Higgs boson in topcolor models via the gluon fusion process. We consider the contribution of color-octet massive gauge bosons (colorons) strongly interacting with the top quark, in addition to nonstandard contributions of the top-Yukawa coupling and heavy colored fermions other than the top quark. In order to estimate the contribution of colorons, we derive the low-energy effective theory by eliminating colorons by using the equation of motion for colorons. We replace the composite operator (qL tR)(tR qL) in the effective theory by the composite Higgs operator. We then obtain the effective gluon-gluon-Higgs (ggH-) operator induced by colorons and find that its coefficient (Acol) is proportional to mdyn2/M2, where M and mdyn denote the coloron mass and the mass dynamically generated by colorons, respectively. The contribution of colorons Acol becomes comparable to the top-loop effect Atop for M=O(1TeV) and mdyn=O(0.6TeV). Such a large dynamical mass can be realized in top-seesaw (TSS) models consistently with the experimental value of the top quark mass (mtexp), while the dynamical mass itself is adjusted to mtexp in topcolor assisted technicolor models (TC2). We find that the coloron contribution Acol can be sizable in a certain class of TSS models: the contribution of colorons (the top-loop) is dominant in the real (imaginary) part of the H->gg amplitude for the Higgs boson mass mH of the order of 1 TeV. On the other hand, enhancement of the top-Yukawa coupling becomes important in TC2. We can observe signatures of the Higgs boson in TC2 with mH 200 GeV even at the Tevatron Run II as well as at the LHC. We estimate S/B=3-6 for an integrated luminosity of 2 fb-1 and mH=190 GeV at the Tevatron Run II.

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