an:06814185
Zbl 1441.11262
Zhu, Wenbin
Representation of integers as sums of fractional powers of primes and powers of 2
EN
Acta Arith. 181, No. 2, 185-196 (2017); erratum ibid. 185, No. 2, 197-199 (2018).
00372403
2017
j
11P32 11P05 11N36
additive theory of prime numbers; fractional powers; sieve methods
The binary Goldbach conjecture, which states that every even integer \(N\ge 4\) should be representable as a sum of two primes, is still wide-open. However, \textit{Yu. V. Linnik} [Dokl. Akad. Nauk SSSR, n. Ser. 85, 953--954 (1952; Zbl 0047.04505)] established that every large enough even integer can be represented as the sum of two primes and a bounded number of powers of 2. \textit{J. Liu} et al. [J. Number Theory 92, No. 1, 99--116 (2002; Zbl 0997.11082)] proved a variant of this result, namely that every large enough even integer \(N\) can be represented as the sum of four squares of primes and a bounded number of powers of 2. The article under review considers another interesting variant of Linnik's result, namely representations of the form
\[
N=\left[p_1^c\right]+\left[p_2^c\right]+2^{\nu_1}+\cdots + 2^{\nu_k},
\]
where \(p_1\) and \(p_2\) are primes and \(c\) is a real number greater 1. It is proved that for any \(c\in (1,29/28)\), there exists an integer \(k\) such that every large enough integer \(N\) can be represented in the form above. The author's treatment is based on the circle method and uses, among other tools, exponential sum and integral estimates, zero density estimates for the Riemann zeta function and estimates coming up in connection with Piatetski-Shapiro primes.
Stephan Baier (Haora)
Zbl 0047.04505; Zbl 0997.11082