Proofs, generalizations and analogs of Menon’s identity: a survey

Proofs, generalizations and analogs of Menon’s identity: a survey

Menon’s identity states that for every positive integer n one has ∑ (a − 1, n) = φ (n)τ(n), where a runs through a reduced residue system (mod n), (a − 1, n) stands for the greatest common divisor of a − 1 and n, φ(n) is Euler’s totient function, and τ(n) is the number of divisors of n. Menon’s iden...

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Veröffentlicht in:Acta universitatis sapientiae. Mathematica 2023-11, Vol.15 (1), p.142-197
1. Verfasser: Tóth, László
Format: Artikel
Sprache:eng
Schlagworte:
11A07
11A25
22F05
arithmetic function
Dirichlet character
Dirichlet convolution
Euler’s function
finite Fourier representation
group action
Menon’s identity
n-even function
orbit counting lemma
Ramanujan’s sum
unitary convolution
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Zusammenfassung:Menon’s identity states that for every positive integer n one has ∑ (a − 1, n) = φ (n)τ(n), where a runs through a reduced residue system (mod n), (a − 1, n) stands for the greatest common divisor of a − 1 and n, φ(n) is Euler’s totient function, and τ(n) is the number of divisors of n. Menon’s identity has been the subject of many research papers, also in the last years. We present detailed, self contained proofs of this identity by using different methods, and point out those that we could not identify in the literature. We survey the generalizations and analogs, and overview the results and proofs given by Menon in his original paper. Some historical remarks and an updated list of references are included as well.
ISSN:2066-7752
DOI:10.2478/ausm-2023-0009