Efficient congruencing in ellipsephic sets: the general case
Journal article, 2023
In this paper, we bound the number of solutions to a general Vinogradov system of equations x(1)(j) + ... + x(s)(j) = y(1)(j) + ... + y(s)(j), (1 <= j <= k), as well as other related systems, in which the variables are required to satisfy digital restrictions in a given base. Specifically, our sets of permitted digits have the property that there are few representations of a natural number as sums of elements of the digit set - the set of squares serving as a key example. We obtain better bounds using this additive structure than could be deduced purely from the size of the set of variables. In particular, when the digits are required to be squares, we obtain diagonal behavior with 2k(k + 1) variables.
Hardy-Littlewood method
efficient congruencing
missing digits
Author
Kirsti Biggs
University of Gothenburg
Chalmers, Mathematical Sciences, Algebra and geometry
International Journal of Number Theory
1793-0421 (ISSN) 17937310 (eISSN)
Vol. 19 1 169-197Subject Categories (SSIF 2011)
Control Engineering
Computer Science
Mathematical Analysis
DOI
10.1142/S1793042123500070