Almost partition identities

Andrews, George E.; Ballantine, Cristina

doi:10.1073/pnas.1820945116

Cited by 18 publications

(15 citation statements)

References 10 publications

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“…Remark 1. As proved in [3], the excess in Theorem 1.2 is almost always equal to the number of parts in all self-conjugate partitions of n. Hence, the excess in the number of parts in all partitions in P e (n, 2) over the number of parts in all partitions in P o (n, 2) is almost always equal to the total number of parts in all self-conjugate partitions of n and in all partitions of n into distinct odd parts. More precisely, if N (x) is the number of times the above statement is true for n ≤ x, then lim x→∞ N (x)/x = 1.…”

Section: Introduction and Statement Of Resultsmentioning

confidence: 67%

“…The conjecture was also proved combinatorially by Yang [11] and Ballantine-Bielak [4] independently. This work was followed by generalizations and Beck-type companions to other well known identities (e.g., [3], [5], [9], [11]). In general, a Beck-type companion identity to |P X (n)| = |P Y (n)| is an identity that equates the excess of the number of parts in all partitions in P X (n) over the number of parts in all partitions in P Y (n) to the number of partitions of n satisfying a condition closely related to X (or Y ).…”

Section: Introduction and Statement Of Resultsmentioning

confidence: 99%

“…Equivalently, the excess of Theorem 1.5 equals the number of partitions of n in which, among the parts divisible by r, there is a single even multiple of r and this part is possibly repeated, while all other parts divisible by r are odd multiples of r and they are distinct. Theorem 1.6 below is a restricted Beck-type companion identity to (3), in which we only count the number of parts divisible by r in Q o (n, r), and the number of parts divisible by 2r in P e (n, 2r) and P o (n, 2r). The theorem reduces to Theorem 1.3 when r = 1.…”

Section: Introduction and Statement Of Resultsmentioning

confidence: 99%

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On a Partition Identity of Lehmer

Ballantine¹,

Burson²,

Folsom³

et al. 2021

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Euler's identity equates the number of partitions of any non-negative integer n into odd parts and the number of partitions of n into distinct parts. Beck conjectured and Andrews proved the following companion to Euler's identity: the excess of the number of parts in all partitions of n into odd parts over the number of parts in all partitions of n into distinct parts equals the number of partitions of n with exactly one even part (possibly repeated). Beck's original conjecture was followed by generalizations and so-called "Beck-type" companions to other identities.In this paper, we establish a collection of Beck-type companion identities to the following result mentioned by Lehmer at the 1974 International Congress of Mathematicians: the excess of the number of partitions of n with an even number of even parts over the number of partitions of n with an odd number of even parts equals the number of partitions of n into distinct, odd parts. We also establish various generalizations of Lehmer's identity, and prove related Beck-type companion identities. We use both analytic and combinatorial methods in our proofs.

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Section: Introduction and Statement Of Resultsmentioning

confidence: 67%

Section: Introduction and Statement Of Resultsmentioning

confidence: 99%

Section: Introduction and Statement Of Resultsmentioning

confidence: 99%

See 1 more Smart Citation

On a Partition Identity of Lehmer

Ballantine¹,

Burson²,

Folsom³

et al. 2021

Preprint

Self Cite

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“…Several additional similar identities were proved in the last two years. See for example [4,7,8,9]. In order to define Beck-type identities, we first introduce the necessary terminology and notation.…”

Section: Introductionmentioning

confidence: 99%

Beck-type identities for Euler pairs of order $r$

Ballantine¹,

Welch²

2020

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Partition identities are often statements asserting that the set P X of partitions of n subject to condition X is equinumerous to the set P Y of partitions of n subject to condition Y . A Beck-type identity is a companion identity to |P X | = |P Y | asserting that the difference b(n) between the number of parts in all partitions in P X and the number of parts in all partitions in P Y equals a c|P X ′ | and also c|P Y ′ |, where c is some constant related to the original identity, and X ′ , respectively Y ′ , is a condition on partitions that is a very slight relaxation of condition X, respectively Y . A second Beck-type identity involves the difference b ′ (n) between the total number of different parts in all partitions in P X and the total number of different parts in all partitions in P Y . We extend these results to Beck-type identities accompanying all identities given by Euler pairs of order r (for any r ≥ 2). As a consequence, we obtain many families of new Beck-type identities. We give analytic and bijective proofs of our results.

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“…All the coefficients of this series upto q 1000 are in absolute value less than 2, which hints that, possibly, almost all of the coefficients of this series appear infinitely often and most of the terms are zero, similar to that in the case of σ(q). Recently this series also occurred in [4] while studying the generating function of the total number of parts in all self conjugate partitions of a certain integer, where, indeed, the above property is said to follow from [8,Theorem 5]. This motivates us to study this series.…”

Section: Introductionmentioning

confidence: 99%

On Sum-Of-Tails Identities

Gupta

2020

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In this article, a finite analogue of the generalized sum-of-tails identity of Andrews and Freitas is obtained. We derive several interesting results as special cases of this analogue, in particular, a recent identity of Dixit, Eyyyunni, Maji and Sood. We derive a new extension of Abel's lemma with the help of which we obtain a one-parameter generalization of a sum-of-tails identity of Andrews, Garvan and Liang, an identity of Ramanujan as well as two new results -one for Ramanujan's function σ(q) and another for the function recently introduced by Andrews and Ballantine. Later we introduce a new generalization FFW c (n) of a function of Fokkink, Fokkink and Wang and derive an identity for its generating function. This gives, as a special case, a recent representation for the generating function of spt(n) given by Andrews, Garvan and Liang. We also obtain some weighted partition identities along with new representations for two of Ramanujan's third order mock theta functions through combinatorial techniques.

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Almost partition identities

Cited by 18 publications

References 10 publications

On a Partition Identity of Lehmer

On a Partition Identity of Lehmer

Beck-type identities for Euler pairs of order $r$

On Sum-Of-Tails Identities

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