Revision as of 10:29, 26 October 2018 edit 134.59.11.233 (talk) →Examples ← Previous edit		Revision as of 16:33, 1 February 2019 edit undo BD2412 (talk \| contribs) Autopatrolled, Administrators 2,527,122 edits m →top: Unlink term with no encycopedic target., replaced: map → map Tag: AWB Next edit →
Line 1: In [[mathematics]], particularly in [[abstract algebra]], a '''semigroup with involution''' or a '''*-semigroup''' is a [[semigroup]] equipped with an [[Involution (mathematics)\|involutive]] [[anti-automorphism]], which—roughly speaking—brings it closer to a [[group (mathematics)\|group]] because this involution, considered as [[unary operator]], exhibits certain fundamental properties of the operation of taking the inverse in a group: uniqueness, double application "cancelling itself out", and the same interaction law with the binary operation as in the case of the group inverse. It is thus not a surprise that any group is a semigroup with involution. However, there are significant natural examples of semigroups with involution that are not groups. An example from [[linear algebra]] is the [[Matrix multiplication\|multiplicative]] [[monoid]] of [[Real number\|real]] square [[Matrix (mathematics)\|matrices]] of order ''n'' (called the [[full linear monoid]]). The ~~[[Map (mathematics)\|~~map]] which sends a matrix to its [[transpose]] is an involution because the transpose is well defined for any matrix and obeys the law {{nowrap\|1=(''AB'')<sup>T</sup> = ''B''<sup>T</sup>''A''<sup>T</sup>}}, which has the same form of interaction with multiplication as taking inverses has in the [[general linear group]] (which is a subgroup of the full linear monoid). However, for an arbitrary matrix ''AA''<sup>T</sup> does not equal the identity element (namely the [[diagonal matrix]]). Another example, coming from [[formal language]] theory, is the [[free semigroup]] generated by a [[nonempty set]] (an [[Alphabet (computer science)\|alphabet]]), with string [[concatenation]] as the binary operation, and the involution being the map which [[String (computer science)#Reversal\|reverse]]s the [[linear order]] of the letters in a string. A third example, from basic [[set theory]], is the set of all [[binary relation]]s between a set and itself, with the involution being the [[converse relation]], and the multiplication given by the usual [[composition of relations]]. Semigroups with involution appeared explicitly named in a 1953 paper of [[Viktor Wagner]] (in Russian) as result of his attempt to bridge the theory of semigroups with that of [[semiheap]]s.<ref name="Hollings2014">{{cite book\|author=Christopher Hollings\|title=Mathematics across the Iron Curtain: A History of the Algebraic Theory of Semigroups\|year=2014\|publisher=American Mathematical Society\|isbn=978-1-4704-1493-1\|page=265}}</ref>

Semigroup with involution: Difference between revisions