Rational Wave Numbers and the Algebraic Structure of the Cyclic Groups of the Roots of Unity

Abstract

Rational wave numbers are periodic sequences ω= A w(f,g) in which amplitude A a product of powers of trigonometric sequences and w(f,g)=( i2π ( f g 1)) is a sequence with ε Z and f,g rational. They generalize the cyclic groups of the nth roots of unity and are generated from two unitary sequences. The multiplicative group WM with A= 1 is their closure wrt product, root, and reflection operators. The commutative ring WA has additional closure wrt summation. The field WI of invertible wave numbers has further closure wrt an inverse. Sums and differences of its elements are ω1 ω2= 2 ( i ln( ω2 ω1)1/2) ( ω1 ω2 )1/2 and ω1 ω2= 2 i ( i ln( ω2 ω1)1/2) ( ω1 ω2 )1/2. Its amplitudes form a multiplicative subgroup over which WM \ 0\ is a vector space. Wave numbers of period n\ ε\ N possess n phases, multiplicative norms, representations wrt orthonormal bases, and prime representations. Rational wave numbers may be completed with respect to Cauchy sequences of parameters (f,g). Equations in invertible wave numbers have solutions corresponding to zeros of their trigonometric factors. Orthonormal bases are employed in constructing the integral wave numbers and allow definitions of the particulate and prime wave numbers in terms of permissible phase-values.

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