Giuseppe Melfi

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Giuseppe Melfi
Born	(1967-06-11) 11 June 1967 (age 56) Uznach, Switzerland
Nationality	Italy   Switzerland
Known for	Practical numbers Ramanujan-type identities
Awards	Premio Ulisse (2010)[1]
Scientific career
Fields	Mathematics
Institutions	University of Neuchâtel University of Applied Sciences Western Switzerland University of Teacher Education BEJUNE

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

Career[edit]

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[edit]

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 ${\displaystyle m-2,m,m+2}$.

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

${\displaystyle \sum _{\stackrel {0<k<n}{k\equiv 1{\bmod {3}}}}\sigma (k)\sigma (n-k)={\frac {1}{9}}\sigma _{3}(n)\qquad {\mbox{ for }}n\equiv 2{\bmod {3}}}$

where ${\displaystyle \sigma (n)}$ is the sum of the divisors of ${\displaystyle n}$ and ${\displaystyle \sigma _{3}(n)}$ is the sum of the third powers of the divisors of ${\displaystyle n}$.

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[edit]

• Giuseppe Melfi and Yadolah Dodge (2008). Premiers pas en simulation. Springer-Verlag. ISBN 978-2-287-79493-3.
• Deshouillers, Jean-Marc; Erdős, Pál; Melfi, Giuseppe (1999), "On a question about sum-free sequences", Discrete Mathematics, 200 (1–3): 49–54, doi:10.1016/s0012-365x(98)00322-7, MR 1692278.
• Melfi, Giuseppe (2015). "On the conditional infiniteness of primitive weird numbers". Journal of Number Theory. 147. Elsevier: 508–514. doi:10.1016/j.jnt.2014.07.024.
• Melfi, Giuseppe (1996), "On two conjectures about practical numbers", Journal of Number Theory, 56 (1): 205–210, doi:10.1006/jnth.1996.0012, MR 1370203

See also[edit]

• Applications of randomness

References[edit]

External links[edit]

• Giuseppe Melfi's home page
• The proof of conjectures on practical numbers and the joint work with Paul Erdős on Zentralblatt.
• Tables of practical numbers Archived 2017-12-26 at the Wayback Machine compiled by Giuseppe Melfi
• Academic research query for "Giuseppe Melfi"