Statistical Assemblies of Particles with Spin

Abstract

Spin, s in quantum theory can assume only half odd integer or integer values. For a given s, there exist n=2s+1 states |s,m, m=s,s-1,........,-s. A statistical assembly of particles (like a beam or target employed in experiments in physics) with the lowest value of spin s= 12 can be described in terms of probabilities pm assigned to the two states m= 12. A generalization of this concept to higher spins s> 12 leads only to a particularly simple category of statistical assemblies known as `Oriented systems'. To provide a comprehensive description of all realizable categories of statistical assemblies in experiments, it is advantageous to employ the generators of the Lie group SU(n). The probability domain then gets identified to the interior of regular polyhedra in n-1, where the centre corresponds to an unpolarized assembly and the vertices represent `pure' states. All the other interior points correspond to `mixed' states. The higher spin system has embedded within itself a set of s(2s+1) independent axes, which are determinable empirically. Only when all these axes turn out to be collinear, the simple category of `Oriented systems' is realized, where probabilities pm are assigned to the states |s,m. The simplest case of higher spin s=1 provides an illustrative example, where additional features of `aligned' and more general `non oriented' categories are displayed.