2008
DOI: 10.1007/s00233-008-9065-5
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Zappa–Szép products of bands and groups

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Cited by 9 publications
(18 citation statements)
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“…2 One may speculate that the reason Tolo's paper did not attract much attention is that his de…nition was broader than the one we use today-too general, one may say-even though his paper does consider the case of a chain of groups, which is a special case (group by chain) of the contemporary sense (group by semilattice). Another promising way to impose extra structure is, as in the group case, to have unique factorisation [12], [11] and hence a Zappa-Szép product.…”
Section: Some Historymentioning
confidence: 99%
“…2 One may speculate that the reason Tolo's paper did not attract much attention is that his de…nition was broader than the one we use today-too general, one may say-even though his paper does consider the case of a chain of groups, which is a special case (group by chain) of the contemporary sense (group by semilattice). Another promising way to impose extra structure is, as in the group case, to have unique factorisation [12], [11] and hence a Zappa-Szép product.…”
Section: Some Historymentioning
confidence: 99%
“…Zappa-Szép products were introduced by Zappa [22] and after being widely developed in the context of groups (see for example Szép [20]) were applied to more general structures by Kunze [12] and Brin [4], who used the term Zappa-Szép product. As shown in [12] and explicated in [6], Zappa-Szép products are closely related to the action of Mealy machines (automata with output depending on input and current state). The concept being so natural, a number of other names have been used, in particular that of general product [13].…”
Section: Introductionmentioning
confidence: 94%
“…We remark that our construction immediately applied to the regular case if S is an inverse semigroup as shown in [6].…”
Section: (E E)(e S) = (E Es) = (E S)mentioning
confidence: 99%
“…S be the standard Zappa-Szép product of an inverse semigroup S and semilattice of idempotents E(S) in the sense of [6] and let T = {(e, s) : es = s} be a subsemigroup of Z . Then there is a canonical embedding of S into T under s → (ss −1 , s).…”
Section: Corollary 35 Let Z = E(s)mentioning
confidence: 99%
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