The rare K-decays in the Multiscale Walking Technicolor Model
Abstract
We calculate the one-loop Z0-penguin contributions to the rare K-decays, K+ π+ , KL π0 and KL μ+ μ-, from the unit-charged technipions π1 and π8 in the framework of the Multiscale Walking Technicolor Model. We find that: (a) the π1 and π8 can provide one to two orders enhancements to the branching ratios of the rare K-decays; (b) by comparing the experimental data of Br(K+ π+ ) with the theoretical prediction one finds the lower mass bounds, mp8 ≥ 249 GeV for FQ=40GeV and mp1=100 GeV; (c) by comparing the experimental data of Br(KL μ+ μ-) with the theoretical predictions one finds the lower bounds on mp1 and mp8, mp1 ≥ 210 GeV if only the contribution from π1 is taken into account, and mp8 ≥ 580 GeV for mp1=210 GeV, assuming FQ=40GeV; (d) the assumed ranges of the masses mp1 and mp8 in the Multiscale Walking Technicolor Model are excluded by the rare K-decay data.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.