Osnel Broche, Ángel del Río Mateos
If x is the generator of a cyclic group of order n then every element of the group ring Z⟨x⟩ is the result of evaluating x at a polynomial of degree smaller than n with integral coefficients. When such an evaluation result into a unit we say that the polynomial defines a unit on order n. Marciniak and Sehgal have classified the polynomials of degree at most 3 defining units. The number of such polynomials is finite. However the number of polynomials of degree 4 defining units on order 5 is infinite and we give the full list of such polynomials. We prove that (up to a sign) every irreducible polynomial of degree 4 defining a unit on an order greater than 5 is of the form a(X4+1)+b(X3+X)+(1−2a−2b)X2 and obtain conditions for a polynomial of this form to define a unit. As an application we prove that if n is greater than 5 then the number of polynomials of degree 4 defining units on order n is finite and for n≤10 we give explicitly all the polynomials of degree 4 defining units on order n. We also include a conjecture on what we expect to be the full list of polynomials of degree 4 defining units, which is based on computer aided calculations.
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