Determining Strong Phase of a1 Meson Decay Amplitude using W τ( a1(π π π)) Process

Abstract

To measure the helicity of a spin-1 meson from the triple vector product of the three-momenta of its decay products, one needs information about the strong phase of the decay amplitude. In this paper, taking a1(1260) meson as an example, we present a method to extract information about the strong phase from the triple vector product of the pion momenta in W τ( a1(π π π)) process, where the a1 helicity is known a priori from electroweak theory. This process is advantageous in that highly-boosted a1- mesons from τL- decays have nearly maximal helicity asymmetry and thus most reflect the strong phase. We revisit the theoretical calculation of the a1 meson helicity in W τ( a1) process. We formulate the differential decay rate of polarized a1 mesons in a manner convenient for the study of the a1 meson helicity asymmetry. Finally, we present the method for extracting information about the strong phase, and assess its feasibility at the LHC.