David Harbater scite author profile

This paper provides applications of patching to quadratic forms and central simple algebras over function fields of curves over henselian valued fields. In particular, we use a patching approach to reprove and generalize a recent result of Parimala and Suresh on the u-invariant of p-adic function fields, for p odd. The strategy relies on a local-global principle for homogeneous spaces for rational algebraic groups, combined with local computations.Comment: 48 pages; connectivity now required in the definition of rational group; beginning of Section 4 reorganized; other minor change

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Local-global principles for torsors over arithmetic curves

Harbater¹,

Hartmann²,

Krashen³

2015

ajm

104

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We consider local-global principles for torsors under linear algebraic groups, over function fields of curves over complete discretely valued fields. The obstruction to such a principle is a version of the Tate-Shafarevich group; and for groups with rational components, we compute it explicitly and show that it is finite. This yields necessary and sufficient conditions for local-global principles to hold. Our results rely on first obtaining a Mayer-Vietoris sequence for Galois cohomology and then showing that torsors can be patched. We also give new applications to quadratic forms and central simple algebras.

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Patching over fields

2010

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We develop a new form of patching that is both far-reaching and more elementary than the previous versions that have been used in inverse Galois theory for function fields of curves. A key point of our approach is to work with fields and vector spaces, rather than rings and modules. After presenting a self-contained development of this form of patching, we obtain applications to other structures such as Brauer groups and differential modules.

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Abhyankar's conjecture on Galois groups over curves

Harbater

1994

Invent Math

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Local Galois theory in dimension two

Harbater

Stevenson

2005

Advances in Mathematics

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This paper proves a generalization of Shafarevich's Conjecture, for fields of Laurent series in two variables over an arbitrary field. This result says that the absolute Galois group G K of such a field K is quasi-free of rank equal to the cardinality of K, i.e. every non-trivial finite split embedding problem for G K has exactly card K proper solutions. We also strengthen a result of Pop and Haran-Jarden on the existence of proper regular solutions to split embedding problems for curves over large fields; our strengthening concerns integral models of curves, which are two-dimensional.

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David Harbater

Applications of patching to quadratic forms and central simple algebras

Local-global principles for torsors over arithmetic curves

Patching over fields

Abhyankar's conjecture on Galois groups over curves

Local Galois theory in dimension two

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