Kristine Bauer scite author profile

Abstract. In this paper, we consider abelian functor calculus, the calculus of functors of abelian categories established by the second author and McCarthy. We carefully construct a category of abelian categories and suitably homotopically defined functors, and show that this category, equipped with the directional derivative, is a cartesian differential category in the sense of Blute, Cockett, and Seely. This provides an abstract framework that makes certain analogies between classical and functor calculus explicit. Inspired by Huang, Marcantognini, and Young's chain rule for higher order directional derivatives of functions, we define a higher order directional derivative for functors of abelian categories. We show that our higher order directional derivative is related to the iterated partial directional derivatives of the second author and McCarthy by a Faà di Bruno style formula. We obtain a higher order chain rule for our directional derivatives using a feature of the cartesian differential category structure, and with this provide a formulation for the nth layers of the Taylor tower of a composition of functors F • G in terms of the derivatives and directional derivatives of F and G, reminiscent of similar formulations for functors of spaces or spectra by Arone and Ching. Throughout, we provide explicit chain homotopy equivalences that tighten previously established quasi-isomorphisms for properties of abelian functor calculus.

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Cross effects and calculus in an unbased setting

Bauer

Johnson

McCarthy

2014

Trans. Amer. Math. Soc.

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We study functors F : C f → D where C and D are simplicial model categories and C f is the category consisting of objects that factor a fixed morphism f : A → B in C. We define the analogs of Eilenberg and Mac Lane's cross effect functors in this context, and identify explicit adjoint pairs of functors whose associated cotriples are the diagonals of the cross effects. With this, we generalize the cotriple Taylor tower construction of Deriving calculus with cotriples (by the second and third authors) from the setting of functors from pointed categories to abelian categories to that of functors from C f to S, a suitable category of spectra, to produce a tower of functors · · · → Γ n+1

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A generalized Goursat lemma

Bauer

Sen

Zvengrowski

2015

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In this note the usual Goursat lemma, which describes subgroups of the direct product of two groups, is generalized to describing subgroups of a direct product A 1 × A 2 × · · · × A n of a finite number of groups. Other possible generalizations are discussed and applications characterizing several types of subgroups are given. Most of these applications are straightforward, while somewhat deeper applications occur in the case of profinite groups, cyclic groups, and the Sylow psubgroups (including infinite groups that are virtual p-groups).

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Directional derivatives and higher order chain rules for abelian functor calculus

Bauer¹,

Johnson²,

Osborne³

et al. 2016

Preprint

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A Generalized Goursat Lemma

Bauer¹,

Sen²,

Zvengrowski³

2011

Preprint

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Kristine Bauer

Directional derivatives and higher order chain rules for abelian functor calculus

Cross effects and calculus in an unbased setting

A generalized Goursat lemma

Directional derivatives and higher order chain rules for abelian functor calculus

A Generalized Goursat Lemma

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