Techni-dilaton at Conformal Edge
Abstract
Techni-dilaton (TD) was proposed long ago in the technicolor (TC) near criticality/conformality. To reveal the critical behavior of TD, we explicitly compute the nonperturbative contributions to the scale anomaly and to the techni-gluon condensate , which are generated by the dynamical mass m of the techni-fermions. Our computation is based on the (improved) ladder Schwinger-Dyson equation, with the gauge coupling replaced by the two-loop running one having the Caswell-Banks-Zaks IR fixed point : for the IR region , where is the intrinsic scale (analogue of of QCD) relevant to the perturbative scale anomaly. We find that and in the criticality limit () ("conformal edge"). Our result precisely reproduces the formal identity , where is the nonperturbative beta function corresponding to the above essential singularity scaling of . Accordingly, the PCDC implies at criticality limit, where is the mass of TD and the decay constant of TD. We thus conclude that at criticality limit the TD could become a "true (massless) Nambu-Goldstone boson" , only when , namely getting decoupled, as was the case of "holographic TD" of Haba-Matsuzaki-Yamawaki. The decoupled TD can be a candidate of dark matter.
Cite
@article{arxiv.1009.5482,
title = {Techni-dilaton at Conformal Edge},
author = {Michio Hashimoto and Koichi Yamawaki},
journal= {arXiv preprint arXiv:1009.5482},
year = {2013}
}
Comments
17 pages, 14 figures; discussions clarified, references added, to appear in Phys.Rev.D