arXiv:1701.03901 Abstract | arXiv Analytics

arXiv:1701.03901 [math.NT]Abstract References Reviews Resources

Systems of cubic forms in many variables

Published 2017-01-14Version 1

We consider a system of $R$ cubic forms in $n$ variables, with integer coefficients, which define a smooth complete intersection in projective space. Provided $n\geq 25R$, we prove an asymptotic formula for the number of integer points in an expanding box at which these forms simultaneously vanish. In particular we can handle systems of forms in $O(R)$ variables, previous work having required that $n \gg R^2$. One conjectures that $n \geq 6R+1$ should be sufficient. We reduce the problem to an upper bound for the number of solutions to a certain auxiliary inequality. To prove this bound we adapt a method of Davenport.

Comments: 23 pages, submitted

Categories: math.NT

Subjects: 11D45, 11D72, 11G35, 14G05

Keywords: cubic forms, smooth complete intersection, integer coefficients, auxiliary inequality, upper bound

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arXiv:1701.03901 [math.NT]Abstract References Reviews Resources

Systems of cubic forms in many variables

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Systems of cubic forms in many variables

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arXiv:1701.03901 [math.NT]Abstract References Reviews Resources