Random Diophantine inequalities of additive type
classification
🧮 math.NT
keywords
diophantineinequalitiesadditivealmostappearsasymptoticcircledavenport-heilbronn
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Using the Davenport-Heilbronn circle method, we show that for almost all additive Diophantine inequalities of degree $k$ in more than $2k$ variables the expected asymptotic formula for the density of solutions holds true. This appears to be the first metric result on Diophantine inequalities.
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