In category theory, a branch of mathematics, Beck's monadicity theorem gives a criterion that characterises monadic functors, introduced by Jonathan Mock Beck (2003) in about 1964. It is often stated in dual form for comonads. It is sometimes called the Beck tripleability theorem because of the older term triple for a monad.
U reflects isomorphisms (if U(f) is an isomorphism then so is f); and
C has coequalizers of U-split parallel pairs (those parallel pairs of morphisms in C, which U sends to pairs having a split coequalizer in D), and U preserves those coequalizers.
There are several variations of Beck's theorem: if U has a left adjoint then any of the following conditions ensure that U is monadic:
U reflects isomorphisms and C has coequalizers of reflexive pairs (those with a common right inverse) and U preserves those coequalizers. (This gives the crude monadicity theorem.)
Every diagram in C which is by U sent to a split coequalizer sequence in D is itself a coequalizer sequence in C. In different words, U creates (preserves and reflects) U-split coequalizer sequences.
Another variation of Beck's theorem characterizes strictly monadic functors: those for which the comparison functor is an isomorphism rather than just an equivalence of categories. For this version the definitions of what it means to create coequalizers is changed slightly: the coequalizer has to be unique rather than just unique up to isomorphism.
The forgetful functor from topological spaces to sets is not monadic as it does not reflect isomorphisms: continuous bijections between (non-compact or non-Hausdorff) topological spaces need not be homeomorphisms.
Negrepontis (1971, §1) shows that the functor from commutative C*-algebras to sets sending such an algebra A to the unit ball, i.e., the set , is monadic. Negrepontis also deduces Gelfand duality, i.e., the equivalence of categories between the opposite category of compact Hausdorff spaces and commutative C*-algebras can be deduced from this.
The powerset functor from Setop to Set is monadic, where Set is the category of sets. More generally Beck's theorem can be used to show that the powerset functor from Top to T is monadic for any topos T, which in turn is used to show that the topos T has finite colimits.
The forgetful functor from semigroups to sets is monadic. This functor does not preserve arbitrary coequalizers, showing that some restriction on the coequalizers in Beck's theorem is necessary if one wants to have conditions that are necessary and sufficient.
If B is a faithfully flat commutative ring over the commutative ring A, then the functor T from A modules to B modules taking M to B⊗AM is a comonad. This follows from the dual of Becks theorem, as the condition that B is flat implies that T preserves limits, while the condition that B is faithfully flat implies that T reflects isomorphisms. A coalgebra over T turns out to be essentially a B-module with descent data, so the fact that T is a comonad is equivalent to the main theorem of faithfully flat descent, saying that B-modules with descent are equivalent to A-modules.[2]
Barr, M.; Wells, C. (2013) [1985], Triples, toposes, and theories, Grundlehren der mathematischen Wissenschaften, vol. 278, Springer, ISBN9781489900234 pdf
Beck, Jonathan Mock (2003) [1967], "Triples, algebras and cohomology" (PDF), Reprints in Theory and Applications of Categories, Columbia University PhD thesis, 2: 1–59, MR 1987896
Leinster, Tom (2013), "Codensity and the ultrafilter monad", Theory and Applications of Categories, 28: 332–370, arXiv:1209.3606, Bibcode:2012arXiv1209.3606L
Negrepontis, Joan W. (1971), "Duality in analysis from the point of view of triples", Journal of Algebra, 19 (2): 228–253, doi:10.1016/0021-8693(71)90105-0, ISSN 0021-8693, MR 0280571
Pavlović, Duško (1991), "Categorical interpolation: descent and the Beck-Chevalley condition without direct images", in Carboni, A.; Pedicchio, M.C.; Rosolini, G. (eds.), Category theory, Lecture Notes in Mathematics, vol. 1488, Springer, pp. 306–325, doi:10.1007/BFb0084229, ISBN978-3-540-54706-8
Deligne, Pierre (1990), Catégories Tannakiennes, Grothendieck Festschrift, vol. II, Progress in Mathematics, vol. 87, Birkhäuser, pp. 111–195
Grothendieck, A. (1962), "Fondements de la géométrie algébrique", [Extraits du Séminaire Bourbaki, 1957—1962], Paris: Secrétariat Math., MR 0146040
Grothendieck, A.; Raynaud, M. (1971), Revêtements Etales et Groupe Fondamental, Lecture Notes in Mathematics, vol. 224, Springer, arXiv:math.AG/0206203, doi:10.1007/BFb0058656, ISBN978-3-540-36910-3
Borceux, Francis (1994), Basic Category Theory, Handbook of Categorical Algebra, vol. 1, Cambridge University Press, ISBN978-0-521-44178-0 (3 volumes).
Fantechi, Barbara; Göttsche, Lothar; Illusie, Luc; Kleiman, Steven L.; Nitsure, Nitin; Vistoli, Angelo (2005), Fundamental Algebraic Geometry: Grothendieck's FGA Explained, Mathematical Surveys and Monographs, vol. 123, American Mathematical Society, ISBN978-0-8218-4245-4, MR 2222646
Pedicchio, Maria Cristina; Tholen, Walter, eds. (2004), Categorical foundations. Special topics in order, topology, algebra, and sheaf theory, Encyclopedia of Mathematics and Its Applications, vol. 97, Cambridge: Cambridge University Press, ISBN0-521-83414-7, Zbl 1034.18001
May 03, 2024
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This article may be too technical for most readers to understand Please help improve it to make it understandable to non experts without removing the technical details February 2021 Learn how and when to remove this message In category theory a branch of mathematics Beck s monadicity theorem gives a criterion that characterises monadic functors introduced by Jonathan Mock Beck 2003 in about 1964 It is often stated in dual form for comonads It is sometimes called the Beck tripleability theorem because of the older term triple for a monad Beck s monadicity theorem asserts that a functor U C D displaystyle U C to D is monadic if and only if 1 U has a left adjoint U reflects isomorphisms if U f is an isomorphism then so is f and C has coequalizers of U split parallel pairs those parallel pairs of morphisms in C which U sends to pairs having a split coequalizer in D and U preserves those coequalizers There are several variations of Beck s theorem if U has a left adjoint then any of the following conditions ensure that U is monadic U reflects isomorphisms and C has coequalizers of reflexive pairs those with a common right inverse and U preserves those coequalizers This gives the crude monadicity theorem Every diagram in C which is by U sent to a split coequalizer sequence in D is itself a coequalizer sequence in C In different words U creates preserves and reflects U split coequalizer sequences Another variation of Beck s theorem characterizes strictly monadic functors those for which the comparison functor is an isomorphism rather than just an equivalence of categories For this version the definitions of what it means to create coequalizers is changed slightly the coequalizer has to be unique rather than just unique up to isomorphism Beck s theorem is particularly important in its relation with the descent theory which plays a role in sheaf and stack theory as well as in the Alexander Grothendieck s approach to algebraic geometry Most cases of faithfully flat descent of algebraic structures e g those in FGA and in SGA1 are special cases of Beck s theorem The theorem gives an exact categorical description of the process of descent at this level In 1970 the Grothendieck approach via fibered categories and descent data was shown by Jean Benabou and Jacques Roubaud to be equivalent under some conditions to the comonad approach In a later work Pierre Deligne applied Beck s theorem to Tannakian category theory greatly simplifying the basic developments Examples editThe forgetful functor from topological spaces to sets is not monadic as it does not reflect isomorphisms continuous bijections between non compact or non Hausdorff topological spaces need not be homeomorphisms Negrepontis 1971 1 shows that the functor from commutative C algebras to sets sending such an algebra A to the unit ball i e the set a A a 1 displaystyle a in A a leq 1 nbsp is monadic Negrepontis also deduces Gelfand duality i e the equivalence of categories between the opposite category of compact Hausdorff spaces and commutative C algebras can be deduced from this The powerset functor from Setop to Set is monadic where Set is the category of sets More generally Beck s theorem can be used to show that the powerset functor from Top to T is monadic for any topos T which in turn is used to show that the topos T has finite colimits The forgetful functor from semigroups to sets is monadic This functor does not preserve arbitrary coequalizers showing that some restriction on the coequalizers in Beck s theorem is necessary if one wants to have conditions that are necessary and sufficient If B is a faithfully flat commutative ring over the commutative ring A then the functor T from A modules to B modules taking M to B AM is a comonad This follows from the dual of Becks theorem as the condition that B is flat implies that T preserves limits while the condition that B is faithfully flat implies that T reflects isomorphisms A coalgebra over T turns out to be essentially a B module with descent data so the fact that T is a comonad is equivalent to the main theorem of faithfully flat descent saying that B modules with descent are equivalent to A modules 2 External links editmonadicity theorem at the nLab monadic descent at the nLabReferences edit Pedicchio amp Tholen 2004 p 228 Deligne 1990 4 2 Balmer Paul 2012 Descent in triangulated categories Mathematische Annalen 353 1 109 125 doi 10 1007 s00208 011 0674 z MR 2910783 S2CID 121964355 Barr M Wells C 2013 1985 Triples toposes and theories Grundlehren der mathematischen Wissenschaften vol 278 Springer ISBN 9781489900234 pdf Beck Jonathan Mock 2003 1967 Triples algebras and cohomology PDF Reprints in Theory and Applications of Categories Columbia University PhD thesis 2 1 59 MR 1987896 Benabou Jean Roubaud Jacques 1970 01 12 Monades et descente C R Acad Sci Paris 270 A 96 98 Leinster Tom 2013 Codensity and the ultrafilter monad Theory and Applications of Categories 28 332 370 arXiv 1209 3606 Bibcode 2012arXiv1209 3606L Negrepontis Joan W 1971 Duality in analysis from the point of view of triples Journal of Algebra 19 2 228 253 doi 10 1016 0021 8693 71 90105 0 ISSN 0021 8693 MR 0280571 Pavlovic Dusko 1991 Categorical interpolation descent and the Beck Chevalley condition without direct images in Carboni A Pedicchio M C Rosolini G eds Category theory Lecture Notes in Mathematics vol 1488 Springer pp 306 325 doi 10 1007 BFb0084229 ISBN 978 3 540 54706 8 Deligne Pierre 1990 Categories Tannakiennes Grothendieck Festschrift vol II Progress in Mathematics vol 87 Birkhauser pp 111 195 Grothendieck A 1962 Fondements de la geometrie algebrique Extraits du Seminaire Bourbaki 1957 1962 Paris Secretariat Math MR 0146040 Grothendieck A Raynaud M 1971 Revetements Etales et Groupe Fondamental Lecture Notes in Mathematics vol 224 Springer arXiv math AG 0206203 doi 10 1007 BFb0058656 ISBN 978 3 540 36910 3 Borceux Francis 1994 Basic Category Theory Handbook of Categorical Algebra vol 1 Cambridge University Press ISBN 978 0 521 44178 0 3 volumes Fantechi Barbara Gottsche Lothar Illusie Luc Kleiman Steven L Nitsure Nitin Vistoli Angelo 2005 Fundamental Algebraic Geometry Grothendieck s FGA Explained Mathematical Surveys and Monographs vol 123 American Mathematical Society ISBN 978 0 8218 4245 4 MR 2222646 Pedicchio Maria Cristina Tholen Walter eds 2004 Categorical foundations Special topics in order topology algebra and sheaf theory Encyclopedia of Mathematics and Its Applications vol 97 Cambridge Cambridge University Press ISBN 0 521 83414 7 Zbl 1034 18001 Retrieved from https en wikipedia org w index php title Beck 27s monadicity theorem amp oldid 1211925992, wikipedia, wiki, book, books, library,
