Closed categories generated by commutative monads

Anders Kock

doi:10.1017/S1446788700010272

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The notion of commutative monad was defined by the author in [4]. The content of the present paper may briefly be stated: The category of algebras for a commutative monad can in a canonical way be made into a closed category, the two adjoint functors connecting the category of algebras with the base category are in a canonical way closed functors, and the front- and end-adjunctions are closed transformations. (The terms ‘Closed Category’ etc. are from the paper [2] by Eilenberg and Kelly). In particular, the monad itself is a ‘closed monad’; this fact was also proved in [4].

References

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[1]Eilenberg, S. and Kelly, G. M., ‘A generalization of the functorial calculus’, J. Algebra 3 (1966), 366–375.Google Scholar

[2]Eilenberg, S. and Kelly, G. M., ‘Closed Categories’, Proc. of the Conference on Categorical Algebra, La Jolla, 1965 (Springer Verlag, 1966).Google Scholar

[3]Eilenberg, S. and Moore, J. C., ‘Adjoint functors and triples’, Illinois J. Math. 9 (1965), 381–398.CrossRef Google Scholar

[4]Kock, A., ‘Monads on symmetric monoidal closed categories’, Arch. Math. 21 (1970), 1–10.CrossRef Google Scholar

[5]Lambek, J., ‘Deductive systems and categories’, Math. Systems Theory 2 (1968), 287–318.CrossRef Google Scholar

[6]Linton, F. E. J., ‘Autonomous equational categories’, J. Math. Mech. 15 (1966), 637–642.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Kock, Anders 1970. Monads on symmetric monoidal closed categories. Archiv der Mathematik, Vol. 21, Issue. 1, p. 1.

Day, Brian 1972. A reflection theorem for closed categories. Journal of Pure and Applied Algebra, Vol. 2, Issue. 1, p. 1.

Day, Brian 1974. Category Seminar. Vol. 420, Issue. , p. 20.

Wolff, Harvey 1975. V-localizations andV-Kleisli algebras. Manuscripta Mathematica, Vol. 16, Issue. 3, p. 203.

Wolff, Harvey 1975. Commutative distributive laws. Journal of the Australian Mathematical Society, Vol. 19, Issue. 2, p. 180.

Tsalenko, M. Sh. and Shul'geifer, E. G. 1977. Categories. Journal of Soviet Mathematics, Vol. 7, Issue. 4, p. 532.

Day, B. J. 1977. Promonoidal functor categories. Journal of the Australian Mathematical Society, Vol. 23, Issue. 3, p. 312.

Day, B. J. 1977. Note on monoidal monads. Journal of the Australian Mathematical Society, Vol. 23, Issue. 3, p. 292.

Keigher, William F. 1978. Closed categories of coalgebras. Communications in Algebra, Vol. 6, Issue. 10, p. 995.

Lindner, Harald 1979. Affine parts of monads. Archiv der Mathematik, Vol. 33, Issue. 1, p. 437.

Meseguer, J. 1983. Order completion monads. Algebra Universalis, Vol. 16, Issue. 1, p. 63.

Blackwell, R. Kelly, G.M. and Power, A.J. 1989. Two-dimensional monad theory. Journal of Pure and Applied Algebra, Vol. 59, Issue. 1, p. 1.

Meseguer, José and Montanari, Ugo 1990. Petri nets are monoids. Information and Computation, Vol. 88, Issue. 2, p. 105.

Lamarche, François 1992. Quantitative domains and infinitary algebras. Theoretical Computer Science, Vol. 94, Issue. 1, p. 37.

Jacobs, Bart 1994. Semantics of weakening and contraction. Annals of Pure and Applied Logic, Vol. 69, Issue. 1, p. 73.

Fiore, Marcelo P. and Plotkin, Gordon D. 1997. Computer Science Logic. Vol. 1258, Issue. , p. 129.

Cattani, Gian Luca Power, John and Winskel, Glynn 1998. CONCUR'98 Concurrency Theory. Vol. 1466, Issue. , p. 581.

Hyland, Martin and Power, John 2001. Pseudo-commutative Monads. Electronic Notes in Theoretical Computer Science, Vol. 45, Issue. , p. 197.

Hyland, Martin and Power, John 2001. Two-dimensional linear algebra. Electronic Notes in Theoretical Computer Science, Vol. 44, Issue. 1, p. 227.

Hyland, Martin and Power, John 2002. Pseudo-commutative monads and pseudo-closed 2-categories. Journal of Pure and Applied Algebra, Vol. 175, Issue. 1-3, p. 141.

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