Representations of integers by systems of three quadratic forms
Publication date
2016-08-05
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Schindler, D.
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Abstract
It is classically known that the circle method produces an asymptotic for the number of representations of a tuple of integers (n1,…,nR) by a system of quadratic forms Q1,…,QR in k variables, as long as k is sufficiently large with respect to R; reducing the required number of variables remains a significant open problem. In this work, we consider the case of three forms and improve on the classical result by reducing the number of required variables to k≥10 for ‘almost all’ tuples, under a non-singularity assumption on the forms Q1,Q2,Q3. To accomplish this, we develop a three-dimensional analogue of Kloosterman's circle method, in particular capitalizing on geometric properties of appropriate systems of three quadratic forms.
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Schindler, D 2016, 'Representations of integers by systems of three quadratic forms', Proceedings of the London Mathematical Society, vol. 3, no. 113, pp. 289-344. https://doi.org/10.1112/plms/pdw027