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Unipotent : ウィキペディア英語版
Unipotent

In mathematics, a unipotent element, ''r'', of a ring, ''R'', is one such that ''r'' − 1 is a nilpotent element; in other words, (''r'' − 1)''n'' is zero for some ''n''.
In particular, a square matrix, ''M'', is a unipotent matrix, if and only if its characteristic polynomial, ''P''(''t''), is a power of ''t'' − 1. Equivalently, ''M'' is unipotent if all its eigenvalues are 1.
The term quasi-unipotent means that some power is unipotent, for example for a diagonalizable matrix with eigenvalues that are all roots of unity.
In an unipotent affine algebraic group all elements are unipotent (see below for the definition of an element being unipotent in such a group).
==Unipotent algebraic groups==
An element, ''x'', of an affine algebraic group is unipotent when its associated right translation operator, ''r''''x'', on the affine coordinate ring ''A''() of ''G'' is locally unipotent as an element of the ring of linear endomorphism of ''A''(). (Locally unipotent means that its restriction to any finite-dimensional stable subspace of ''A()'' is unipotent in the usual ring sense.)
An affine algebraic group is called unipotent if all its elements are unipotent. Any unipotent algebraic group is isomorphic to a closed subgroup of the group of upper triangular matrices with diagonal entries 1, and conversely any such subgroup is unipotent. In particular any unipotent group is a nilpotent group, though the converse is not true (counterexample: the diagonal matrices of GL''n''(''k'')).
If a unipotent group acts on an affine variety, all its orbits are closed, and if it acts linearly on a finite-dimensional vector space then it has a non-zero fixed vector. In fact, the latter property characterizes unipotent groups.
Unipotent groups over an algebraically closed field of any given dimension can in principle be classified, but in practice the complexity of the classification increases very rapidly with the dimension, so people tend to give up somewhere around dimension 6.
Over the real numbers (or more generally any field of characteristic 0) the exponential map takes any nilpotent square matrix to a unipotent matrix. Moreover, if ''U'' is a commutative unipotent group, the exponential map induces an isomorphism from the Lie algebra of ''U'' to ''U'' itself.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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