Publications of Csaba Sándor
[2] C. Sándor, On a problem of Erdős. J. Number Theory 63 (1997), no. 2, 203—210.
[3] P. Erdős; G. Rauzy; C. Sándor; A. Sárközy, Greedy algorithm, arithmetic progressions, subset sums and divisibility. Paul Erdős memorial collection. Discrete Math. 200 (1999), no. 1-3, 119--135.
[4] C. Sándor, Range of bounded additive representation functions. Period. Math. Hungar. 42 (2001), no. 1-2, 169--177.
[5] C. Sándor, On the number of solutions of the Diophantine equation $\sum\sp n\sb {i=1}\frac{1}{x\sb i}=1$. Period. Math. Hungar. 47 (2003), no. 1-2, 215--219.
[6] C. Sándor, A family of self-similar sets with overlaps. Indag. Math. (N.S.) 15 (2004), no. 4, 573--578.
[7] C. Sándor, Partitions of natural numbers and their representation functions. Integers 4 (2004), A18, 5 pp. (electronic).
[8] C. Sándor, On the minimal gaps between products of members of a sequence of positive density. Ann. Univ. Sci. Budapest. Eötvös Sect. Math. 48 (2005), 3--7.
[9] C. Sándor, Non-degenerate Hilbert cubes in random sets. J. Théor. Nombres Bordeaux 19 (2007), no. 1, 249--261.
[10] C. Sándor, An upper bound for Hilbert cubes. J.
Combin. Theory Ser. A 114
(2007),
no.
6, 1157--1159.
[11] C. Sándor, Random $B\sb h$ sets and
additive bases in $\Bbb Z\sb N$. Integers 7 (2007) A32, 10
pp. (electronic)
[12] C. Sándor, A note on a conjecture of
Erdős-Turán. Integers 8 (2008), A30, 4 pp. (electronic)
[13] E. Rozgonyi, C. Sándor, A converse to an extension of a theorem of Erdős and Fuchs. J. Comb. Number Theory 5 (2013), no. 3, 151–163.
[14]
[15] S. Z. Kiss, E. Rozgonyi, C. Sándor, Sets with almost coinciding representation functions. Bull. Aust.
Math. Soc. 89 (2014), no. 1, 97–111.
[16] S. Z. Kiss, E. Rozgonyi, C. Sándor, On Sidon sets which are asymptotic bases of order 4. Funct. Approx.
Comment. Math. 51 (2014), no 2, 393–413.
[18] S. Z. Kiss, C. Sándor, On the maximum values of the additive representation functions. Int. J. Number Theory 12 (2016), no 4, 1055–1075.
[19] S. Z. Kiss, C. Sándor, Partitions of the set of nonnegative integers with the same representation functions. Discrete Math. 340 (2017), no 6. 1154–1161.
[21] C. Sándor, Q-H. Yang, A lower bound of Ruzsa's number related to the Erdős-Turán conjecture, Acta Arith, 180 (2017), no. 2, 161-169.
[22] S. Z. Kiss, C. Sándor, On the multiplicativity of the linear combination of additive representation functions, Ramanujan J. 44 (2017), no. 2, 385-399.
[23] P. P. Pach, C. Sándor, Multiplicative bases and an Erdős problem, Combinatorica 38 (2018), no. 5, 1175-1203.
[24] S. Z. Kiss, C. Sándor, Q-H. Yang, On generalized Stanley sequences, Acta Math. Hungar. 154 (2018), no. 2, 501-510.
[25] C. Sándor, Q-H. Yang, On some properties of representation functions related to the Erdős-Turán conjecture, European J. Combin. 71 (2018), 222-228.
[26] S. Z. Kiss, C. Sándor, Q-H. Yang, On a conjecture of Erdős about sets without k pairwise coprime integers, SIAM J. Discrete Math.32 (2018), no. 4, 2453-2466.
[27] S. Z. Kiss, C. Sándor, Q-H. Yang, On the minimal additive complements of integers, J. Combin Theory Ser. A 162 (2019), 344-353.
[28] P. P. Pach, C. Sándor, On infinite muliplicative Sidon sets, European J. Combin. 76 (2019), 37-52.
[29] S. Z. Kiss, C. Sándor, Generalizations of some results about the regularity properties of an additive representation function, Acta Math. Hungar. 157 (2019), no. 1, 121-140.
[30] S. Z. Kiss, C. Sándor, On the structure of sets which has coinciding representation function, Integers, 19 (2019), A66, 29 pp. (electronic)
[31] X-W Jiang, C. Sándor, Q-H. Yang, On the values of representation functions II, J. Number Theory, 218 (2021), 288-301.
[32] S. Z. Kiss, C. Sándor, On a problem of Chen and Fang related to the infinite additive additive complement, Acta Arithm. 200 (2021), no. 2, 213-220.
[33] S. Z. Kiss, C. Sándor, Generalized asymptotic Sidon basis, Discrete Math. 344 (2021), no. 2, Paper No 2. 112208, 5 pp.
[34] X-W. Jiang, C. Sándor, Q-H. Yang, A note on the lower bound of representation functions, Int. J. Number Theory 17 (2021), no. 10, 2243-2250.
[35] S. Z. Kiss, C. Sándor, Generalized Sidon sets of perfect powers, Ramanujan J. 59 (2022), 351-363.
[36] C. Sándor, Additive representation functions and discrete convolutions, Acta Math. Hungar. 166 (2022), 217-238.
[37] H. Liu, P. P. Pach, C. Sándor, Polynomial Schur's theorem, Combinatorica 42 (2) (2022), 1357-1384.
[38] K-J. Jiao, C. Sándor, Q-H Yang, J-Y Zhou, On the integer sets with the same representation functions, Bull. Aust. Math. Soc. 106 (2022), 224–235.
[39] S. Z. Kiss, C. Sándor, Dense subsets of Sidon-sequences, European J. Combin. 107 (2023) Article ID 103600, 14 p.
[40] A. Kocsis, D. Matolcsi, C. Sándor, G. Tőtős, Multiplicative complements I, Acta Arithm. 207 (2023), 101-120.
[43] B. Bárány, J-H Fang, C. Sándor, Lagrange-like spectrum of perfect additive complements, Acta Arithm. 212 no. 3 (2024), 269-287.
[44] S-Q. Chen, Q-H. Yang, C. Sándor, On a problem of Nathanson related to minimal asymptotic bases of order h, C. R., Math., Acad. Sci. Paris 362, 71-76 (2024).
[45] S. Z. Kiss, C. Sándor, Q-H. Yang, On monotone increasing representation functions, Bull. Aust. Math. Soc. 109, No. 2, 196-205 (2024).
[46] A. Kocsis, D. Matolcsi, C. Sándor, G. Tőtős, Multiplicative complements II, J. Number Theory 265, 1-19 (2024).
[47] S. Z. Kiss, C. Sándor, On
[48] S. Chen; C. Sándor; Q-H Yang; Representation functions in the set of natural numbers, submitted
[49] C. Sándor, Q-H. Yang, J-Y Zhou, Note on a problem of Nathanson related to the \phi-Sidon set, submitted
[50] J-H Fang, C. Sándor, On sets with sum and difference structure, submitted
[51] J-H Fang, C. Sándor, On disjoint sets, submitted
[52] J-H Fang, C. Sándor, On function
[53] S. Z. Kiss, C. Sándor, Unique representations of integers by linear forms, submitted
[54] Zs. Gy. Fleiner, ; M. H. Juhász; B. Kövér; P. P. Pach; Product representation of perfect cubes, submitted
[55] I. Pink; C. Sándor; On the largest value of the solutions of Erdős's last equation, submitted