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A Mersenne prime is a prime number that is one less than a power of two. For example, 3 = 4-1 = 22-1 is a Mersenne prime. So is 7 = 8-1 = 23-1. But 15 = 16-1 = 24-1 is not a prime. Fast algorithms for finding Mersenne primes are available, and this is why the largest known prime numbers today are Mersenne primes.
Mersenne primes have a deep connection to perfect numbers, which are numbers that are equal to the sum of their proper divisors. Historically, the study of Mersenne primes was motivated by this connection. In the 4th century BC Euclid demonstrated that if M is a Mersenne prime then M(M+1)/2 is a perfect number. Two millennia later, in the 18th century, Euler proved that all even perfect numbers have this form. No odd perfect numbers are known, and it is suspected that none exist.
More generally, Mersenne numbers (not necessarily primes, but candidates for primes) are numbers that are one less than an odd power of two. The notation Mn = 2n-1 is used. The calculation
The first four Mersenne primes M2, M3, M5, M7 were known in antiquity. The fifth, M13, was discovered anonymously before 1461. The next two (M17 and M19) were found by Cataldi in 1588. After more than a century M31 was verified to be prime by Euler in 1750. The next (in historical, not numerical order) was found by Lucas in 1876, then another by Pervushin in 1883. Two more were found early in the 20th century, by Powers in 1911 and Fauquembergue in 1914.
The numbers are named after 17th century French mathematician Marin Mersenne, who provided a list of Mersenne primes with exponents up to 257. Unfortunately his list was not correct. He mistakenly included M67 and M257, and omitted M61, M89 and M109.
The best method presently known for testing the primality of Mersenne numbers is based on the computation of a recurring sequence, as developed originally by Lucas in 1878 and improved by Lehmer[?] in the 1930s. Specifically, it can be shown that Mn = 2n-1 is prime if and only if Mn evenly divides Sn-2, where S0 = 4 and for k > 0, Sk = Sk-12-2.
The search for Mersenne primes was revolutionized by the introduction of the electronic digital computer. The first successful identification of a Mersenne prime by this means was achieved at 10:00 P.M. on January 30, 1952 using the U.S. National Bureau of Standards Western Automatic Computer (SWAC) at the Institute for Numerical Analysis[?] at the University of California, Los Angeles, under the direction of Lehmer[?], with a computer search program written and run by Prof. R.M. Robinson[?]. It was the first Mersenne prime to be identified in thirty-eight years. The next one was found by the computer a little less than two hours later. Three more were found by the same program in the next several months.
As of December 2001, only 39 Mersenne primes were known; the largest known prime number (213466917-1) is a Mersenne prime. Like several previous Mersenne primes, it was discovered by a distributed computing project on the Internet, known as the Great Internet Mersenne Prime Search.
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