Superabundant number

In mathematics, a superabundant number is a certain kind of natural number. A natural number $n$ is called superabundant precisely when, for all $m < n$ :

{\frac {\sigma (m)}{m}}<{\frac {\sigma (n)}{n}}

where $σ$ denotes the sum-of-divisors function (i.e., the sum of all positive divisors of $n$ , including $n$ itself). The first few superabundant numbers are 1, 2, 4, 6, 12, 24, 36, 48, 60, 120, ... (sequence A004394 in the OEIS). For example, the number 5 is not a superabundant number because for 1, 2, 3, 4, and 5, the sigma is 1, 3, 4, 7, 6, and 7/4 > 6/5.

Superabundant numbers were defined by Leonidas Alaoglu and Paul Erdős (1944). Unknown to Alaoglu and Erdős, about 30 pages of Ramanujan's 1915 paper "Highly Composite Numbers" were suppressed. Those pages were finally published in The Ramanujan Journal 1 (1997), 119–153. In section 59 of that paper, Ramanujan defines generalized highly composite numbers, which include the superabundant numbers.