Carmichael number: Difference between revisions

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== Further reading ==
== Further reading ==
* [[Richard E. Crandall]] and [[Carl Pomerance]]: Prime Numbers: A Computational Perspective. Springer-Verlag, 2001. ISBN 0-387-25282-7  
* [[Richard E. Crandall]] and [[Carl Pomerance]]. Prime Numbers: A Computational Perspective. Springer-Verlag, 2001. ISBN 0-387-25282-7  
* [[Paolo Ribenboim]]: The New Book of Prime Number Records. Springer-Verlag, 1996, ISBN 0-387-94457-5
* [[Paolo Ribenboim]]. The New Book of Prime Number Records. Springer-Verlag, 1996, ISBN 0-387-94457-5


== Links ==
== Links ==
*[http://de.wikibooks.org/wiki/Pseudoprimzahlen:_Tabelle_Carmichael-Zahlen List of Carmichael numbers between 561 and 2,301,745,249]
*[http://de.wikibooks.org/wiki/Pseudoprimzahlen:_Tabelle_Carmichael-Zahlen List of Carmichael numbers between 561 and 2,301,745,249]

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A Carmichael number is a composite number named after the mathematician Robert Daniel Carmichael. A Carmichael number satisfies for every integer that is divisible by . A Carmichael number c also satisfies the congruence , if . The first few Carmichael numbers are 561, 1105, 1729, 2465, 2821, 6601 and 8911. In 1994 Pomerance, Alford and Granville proved that there exist infinitely many Carmichael numbers.

Properties of a Carmichael number

  • Every Carmichael number is square-free and has at least three different prime factors
  • For every Carmichael number c it holds that is divisible by for every one of its prime factors .
  • Every Carmichael number is an Euler pseudoprime.
  • Every absolute Euler pseudoprime is a Carmichael number.

Chernick's Carmichael numbers

J. Chernick found in 1939 a way to construct Carmichael numbers[1]. If, for a natural number n, the three numbers , and are prime numbers, the product is a Carmichael number. Equivalent to this is that if , and are prime numbers, then the product is a Carmichael number.

References and notes

Further reading

Links