An Effective Lagrangian for Low-Scale Technicolor

Abstract

We present an effective Lagrangian for low-scale technicolor. It describes the interactions at energies near the mass of the lowest-lying bound states of the lightest technifermion doublet -- the spin-one T,ωT, aT, fT and the corresponding technipions πT. This Lagrangian is intended to put on firmer ground the technicolor straw-man phenomenology used for collider searches of low-scale technicolor. The technivectors are described using the hidden local symmetry (HLS) formalism of Bando et al. The Lagrangian is based on SU(2) U(1) U(2)L U(2)R, where SU(2) U(1) is the electroweak gauge group and U(2)L U(2)R is the HLS gauge group. Special attention is paid to the higher-derivative standard HLS and Wess-Zumino-Witten interactions needed to describe radiative and other decays of the aT and T/ωT, respectively.