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Line 3: ==Dickson invariant== When ''G'' is the finite ~~group~~ general linear group GL<sub>''n''</sub>('''F'''<sub>''q''</sub>) over the finite field '''F'''<sub>''q''</sub> of order a prime power ''q'' acting on the ring '''F'''<sub>''q''</sub>[''X''<sub>1</sub>, ... ,''X''<sub>''n''</sub>] in the natural way, {{harvtxt\|Dickson\|1911}} found a complete set of invariants as follows. Write [''e''<sub>1</sub>, ... ,''e''<sub>''n''</sub>] for the determinant of the matrix whose entries are ''X''{{su\|b=''i''\|p=''q''<sup>''e''<sub>''j''</sub></sup>}}, where ''e''<sub>1</sub>, ... ,''e''<sub>''n''</sub> are non-negative integers. Then under the action of an element ''g'' of GL<sub>''n''</sub>('''F'''<sub>''q''</sub>) these determinants are all multiplied by det(''g''), so they are all invariants of SL<sub>''n''</sub>('''F'''<sub>''p''</sub>) and the ratio [''e''<sub>1</sub>, ... ,''e''<sub>''n''</sub>]/[0,1,...,''n''−1] are invariants of GL<sub>''n''</sub>('''F'''<sub>''q''</sub>), called '''Dickson invariants'''. Dickson proved that the full ring of invariants '''F'''<sub>''q''</sub>[''X''<sub>1</sub>, ... ,''X''<sub>''n''</sub>]<sup>GL<sub>''n''</sub>('''F'''<sub>''q''</sub>)</sup> is a polynomial algebra over the ''n'' Dickson invariants [0,1,...,''i''−1,''i''+1,...,''n'']/[0,1,...,''n''−1] for ''i''=0, 1, ..., ''n''−1. {{harvtxt\|Steinberg\|1987}} gave a shorter proof of Dickson's theorem.

Modular invariant theory: Difference between revisions