Biography:Giuseppe Melfi

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Short description: Italo-Swiss mathematician
Giuseppe Melfi
Melfi2004.jpg
Born (1967-06-11) 11 June 1967 (age 57)
Uznach, Switzerland
Nationality Italy
  Switzerland
Known forPractical numbers
Ramanujan-type identities
AwardsPremio Ulisse (2010)[1]
Scientific career
FieldsMathematics
InstitutionsUniversity of Neuchâtel
University of Applied Sciences Western Switzerland
University of Teacher Education BEJUNE

Giuseppe Melfi (June 11, 1967) is an Italo-Switzerland mathematician who works on practical numbers and modular forms.

Career

He gained his PhD in mathematics in 1997 at the University of Pisa. After some time spent at the University of Lausanne during 1997-2000, Melfi was appointed at the University of Neuchâtel, as well as at the University of Applied Sciences Western Switzerland and at the local University of Teacher Education.

Work

His major contributions are in the field of practical numbers. This prime-like sequence of numbers is known for having an asymptotic behavior and other distribution properties similar to the sequence of primes. Melfi proved two conjectures both raised in 1984[2] one of which is the corresponding of the Goldbach conjecture for practical numbers: every even number is a sum of two practical numbers. He also proved that there exist infinitely many triples of practical numbers of the form [math]\displaystyle{ m-2,m,m+2 }[/math].

Another notable contribution has been in an application of the theory of modular forms, where he found new Ramanujan-type identities for the sum-of-divisor functions. His seven new identities extended the ten other identities found by Ramanujan in 1913.[3] In particular he found the remarkable identity

[math]\displaystyle{ \sum_{\stackrel{0\lt k\lt n}{k\equiv1\bmod3}} \sigma(k)\sigma(n-k)=\frac19\sigma_3(n) \qquad \mbox{ for }n\equiv2\bmod3 }[/math]

where [math]\displaystyle{ \sigma(n) }[/math] is the sum of the divisors of [math]\displaystyle{ n }[/math] and [math]\displaystyle{ \sigma_3(n) }[/math] is the sum of the third powers of the divisors of [math]\displaystyle{ n }[/math].

Among other problems in elementary number theory, he is the author of a theorem that allowed him to get a 5328-digit number that has been for a while the largest known primitive weird number.

In applied mathematics his research interests include probability and simulation.

Selected research publications

See also

  • Applications of randomness

References

  1. "Consegnati i premi "Ulisse", La Sicilia, 15th August 2010, p. 38.". https://edicola.lasicilia.it/lasicilia/pageflip/swipe/catania/100815catania/#/96/. 
  2. Margenstern, M., Résultats et conjectures sur les nombres pratiques, C, R. Acad. Sci. Sér. 1 299, No. 18 (1984), 895-898.
  3. Ramanujan, S., On certain arithmetical functions, Transactions of the Cambridge Philosophical Society, 22 (9), 1916, p. 159-184.

External links