Derived contraction algebra
dc.contributor.advisor
Pridham, Jonathan
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dc.contributor.advisor
Cheltsov, Ivan
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dc.contributor.author
Booth, Matt Paul
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dc.contributor.sponsor
Engineering and Physical Sciences Research Council (EPSRC)
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dc.date.accessioned
2019-12-20T14:21:25Z
dc.date.available
2019-12-20T14:21:25Z
dc.date.issued
2019-11-25
dc.description.abstract
All minimal models of a given variety are linked by special birational maps called flops, which
are a type of codimension two surgery. A version of the Bondal–Orlov conjecture, proved by
Bridgeland, states that if X and Y are smooth complex projective threefolds linked by a flop,
then they are derived equivalent (i.e. their bounded derived categories of coherent sheaves are
equivalent). Van den Bergh was able to give a new proof of Bridgeland’s theorem using the
notion of a noncommutative crepant resolution, which is in particular a ring A together with
a derived equivalence between X and A. The ring A is constructed as an endomorphism ring
of a decomposable module, and hence admits an idempotent e. Donovan and Wemyss define
the contraction algebra to be the quotient of A by e; it is a finite-dimensional noncommutative
algebra that is conjectured to completely recover the geometry of the base of the flop. They
show that it represents the noncommutative deformation theory of the flopping curves, as well
as controlling the flop-flop autoequivalence of the derived category of X (which, for the algebraic
model A, is the mutation-mutation autoequivalence).
In this thesis, I construct and prove properties of a new invariant, the derived contraction
algebra, which I define to be Braun–Chuang–Lazarev’s derived quotient of A by e. A priori, the
derived contraction algebra – which is a dga, rather than just an algebra – is a finer invariant
than the classical contraction algebra. I prove (using recent results of Hua and Keller) a derived
version of the Donovan–Wemyss conjecture, a suitable phrasing of which is true in all dimensions.
I prove that the derived quotient admits a deformation-theoretic interpretation; the proof
is purely homotopical algebra and relies at heart on a Koszul duality result. I moreover prove
that in an appropriate sense, the derived contraction algebra controls the mutation-mutation
autoequivalence. These results both recover and extend Donovan–Wemyss’s. I give concrete
applications and computations in the case of partial resolutions of Kleinian singularities, where
the classical contraction algebra becomes inadequate.
en
dc.identifier.uri
https://hdl.handle.net/1842/36670
dc.language.iso
en
dc.publisher
The University of Edinburgh
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dc.relation.hasversion
Matt Booth. Noncommutative deformation theory, the derived quotient, and DG singularity categories. arXiv:1810.10060. 2018.
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dc.relation.hasversion
Matt Booth. The derived contraction algebra. arXiv:1903.12156. 2019.
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dc.subject
algebraic geometry
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dc.subject
birational geometry
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dc.subject
flop
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dc.subject
flops
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dc.subject
Donovan–Wemyss contraction
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dc.title
Derived contraction algebra
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dc.type
Thesis or Dissertation
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dc.type.qualificationlevel
Doctoral
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dc.type.qualificationname
PhD Doctor of Philosophy
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