Abstract
The differential rates for certain two-particle decays of polarized baryons and bosons of arbitrary spins have been calculated in terms of the phenomenological coupling constants. The decay into a nucleon and a pseudoscalar meson has been treated for the general parity-violating case. The baryon decay into a spin-3/2 particle and a pseudoscalar meson or a vector boson, and the boson decay into a vector boson and a pseudoscalar meson have been calculated in the parity-conserving case. The Wigner-Bargmann equation has been used to describe particles of higher spins and certain results connected with them, such as particle, antiparticle and spin projection operators and the density matrix have also been derived.
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