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In mathematics, a twisted polynomial is a polynomial over a field of characteristic in the variable representing the Frobenius map . In contrast to normal polynomials, multiplication of these polynomials is not commutative, but satisfies the commutation rule
for all in the base field.
Over an infinite field, the twisted polynomial ring is isomorphic to the ring of additive polynomials, but where multiplication on the latter is given by composition rather than usual multiplication. However, it is often easier to compute in the twisted polynomial ring — this can be applied especially in the theory of Drinfeld modules.
Definition
editLet be a field of characteristic . The twisted polynomial ring is defined as the set of polynomials in the variable and coefficients in . It is endowed with a ring structure with the usual addition, but with a non-commutative multiplication that can be summarized with the relation for . Repeated application of this relation yields a formula for the multiplication of any two twisted polynomials.
As an example we perform such a multiplication
Properties
editThe morphism
defines a ring homomorphism sending a twisted polynomial to an additive polynomial. Here, multiplication on the right hand side is given by composition of polynomials. For example
using the fact that in characteristic we have the Freshman's dream .
The homomorphism is clearly injective, but is surjective if and only if is infinite. The failure of surjectivity when is finite is due to the existence of non-zero polynomials which induce the zero function on (e.g. over the finite field with elements).[citation needed]
Even though this ring is not commutative, it still possesses (left and right) division algorithms.
References
edit- Goss, D. (1996), Basic structures of function field arithmetic, Ergebnisse der Mathematik und ihrer Grenzgebiete (3) [Results in Mathematics and Related Areas (3)], vol. 35, Berlin, New York: Springer-Verlag, ISBN 978-3-540-61087-8, MR 1423131, Zbl 0874.11004
- Rosen, Michael (2002), Number Theory in Function Fields, Graduate Texts in Mathematics, vol. 210, Springer-Verlag, ISBN 0-387-95335-3, ISSN 0072-5285, Zbl 1043.11079