Proalgebraic Crossed Modules of Quasirational Presentations

Mikhovich, Andrey

doi:10.1007/978-3-319-45441-2_19

Cited by 4 publications

(4 citation statements)

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“…We can always identify G u with the continuous Q p -prounipotent completion of G [23, (4)]. This result (Theorem 1) has been announced in [26,Corollary 12] and used in [23, Proposition 3, Corollary 3] for proof of the criterion of cohomological dimension equal to 2, providing a relation with the known group theory results (see [14,32,37,8] and other papers cited there). Let us recall the results of [23, Proposition 3, Corollary 3], since they shed light on the following Serre's question from [35].…”

Section: By a Homomorphism Of Topological A-modules One Calls A Contimentioning

confidence: 84%

Identity Theorem for Pro-p-groups

Mikhovich

2019

Knots, Low-Dimensional Topology and Applications

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The concept of schematization consists in replacing simplicial groups by simplicial affine group schemes. In the case when the coefficient field has a zero characteristic, there is a prominent theory of simplicial prounipotent groups, the origins of which lead to the rational homotopy theory of D. Quillen. The specificity of a prime finite field F p is that the Zariski topology on the n-dimensional affine space F n p turns out to be discrete. Therefore, although finite p-groups are F p -points of F p -unipotent affine group schemes, this observation is not actually used. Nevertheless, schematization reveals the profound properties of F p -prounipotent groups, especially in connection with prounipotent groups in the zero characteristic and in the study of quasirationality. In this paper, using results on representations and cohomology of prounipotent groups in characteristic 0, we prove an analogue of Lyndon Identity theorem for one-relator pro-p-groups (question posed by J.P. Serre) and demonstrate the application to one more problem of J.-P. Serre concerning onerelator pro-p-groups of cohomological dimension 2. Schematic approach makes it possible to consider the problems of pro-p-groups theory through the prism of Tannaka duality, concentrating on the category of representations. In particular we attach special importance to the existence of identities in free pro-p-groups ("conjurings").

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Section: By a Homomorphism Of Topological A-modules One Calls A Contimentioning

confidence: 84%

Identity Theorem for Pro-p-groups

Mikhovich

2019

Knots, Low-Dimensional Topology and Applications

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“…In this paper we shall give the description, announced in [21], of modules of relations of quasirational pro-p-presentations by means of affine group schemes technique. For these purposes, after recalling necessary constructions in Section 2, in Section 3 we construct a prounipotent presentation (3) from a finite presentation of a pro-p-group (2) by means of Qp-prounipotent completion (Definition 3) of finitely generated free pro-p-groups ("schematization").…”

Section: Introductionmentioning

confidence: 99%

“…For Fp-prounipotent groups, for which pro-p-groups are their Fp-points, it would be too optimistic to hope for a similar statement, but we shall show that existence of an embedding into a similar type of completion implies that cohomological dimension of such a group is less or equal to 2. Using a description of the relations module of a prounipotent group with one defining relation [21,Corollary 12] we point out (Proposition 3 and Corollary 3), in terms of continuous prounipotent completion, the condition under which a finitely generated pro-p-group with one defining relation has cohomological dimension 2. The proof is based on Theorem 1 and Corollary 2.…”

Section: Introductionmentioning

confidence: 99%

Quasirationality and prounipotent crossed modules

Mikhovich

2019

J. Knot Theory Ramifications

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We study quasirational presentations (QR-presentations) of (pro-p)groups, which contain aspherical presentations and their subpresentations, and also still mysterious prop-groups with a single defining relation. Using schematization of QR-presentations and embedding of the rationalized module of relations into a diagram related to certain prounipotent crossed module, we study cohomological properties of pro-p-groups with a single defining relation (a question of J.-P. Serre).

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“…Breen had an early paper on the schematic sphere [9], and one should note that his paper on cohomology calculations [8] provides in retrospect the foundation for schematization. More recently, Katzarkov Pantev and Toën [23] [24], Pridham [34] and others [28] defined the schematization in full generality and developed Hodge theory for it.…”

Section: 1mentioning

confidence: 99%