Spin and Chirality Effects in Antler-Topology Processes at High Energy e+e- Colliders

Abstract

We perform a model-independent investigation of spin and chirality correlation effects in the antler-topology processes e+e-+P- (+ D0) (-D0) at high energy e+e- colliders with polarized beams. Generally the production process e+e-+P- can occur not only through the s-channel exchange of vector bosons, V0, including the neutral Standard Model (SM) gauge bosons, γ and Z, but also through the s- and t-channel exchanges of new neutral states, S0 and T0, and the u-channel exchange of new doubly-charged states, U--. The general set of (non-chiral) three-point couplings of the new particles and leptons allowed in a renormalizable quantum field theory is considered. The general spin and chirality analysis is based on the threshold behavior of the excitation curves for P+P- pair production in e+e- collisions with longitudinal and transverse polarized beams, the angular distributions in the production process and also the production-decay angular correlations. In the first step, we present the observables in the helicity formalism. Subsequently, we show how a set of observables can be designed for determining the spins and chiral structures of the new particles without any model assumptions. Finally, taking into account a typical set of approximately chiral invariant scenarios, we demonstrate how the spin and chirality effects can be probed experimentally at a high energy e+e- collider.