Effective Lagrangian description of top quark production and decay.

We propose a rather general description of residual new physics (NP) effects on the top quark couplings. These effects are described in terms of 20 gauge-invariant dim=6 operators involving gauge and Higgs bosons as well as quarks of the third family. We compute their implications for the {gamma}{ital t{bar t}}, {ital Zt{bar t}}, and {ital tbW} vertices and study their observability in the process {ital e}{sup {minus}}{ital e}{sup +}{r_arrow}{ital t{bar t}} with {ital t}{r_arrow}{ital bW}{r_arrow}{ital b}l{sup +}{nu}{sub l}. We present results for the integrated cross section, the angular distribution, and various decay distribution and polarization asymmetries for NLC energies of 0.5{minus}2 TeV. Observability limits are discussed and interpreted in terms of the NP scales associated with each operator through the unitarity constraints. The general landscape of the residual NP effects in the heavy quark and bosonic sectors is also presented. {copyright} {ital 1996 The American Physical Society.}