Fermat pseudoprime: Difference between revisions

A composite number n is called Fermat pseudoprime to a natural base a, coprime to n, so that ${\displaystyle a^{n-1}\equiv 1{\pmod {n}}}$

Restriction

It is sufficient, that the base a satisfy ${\displaystyle 2\leq a\leq n-2}$ because every odd number n satisfy for ${\displaystyle a=n-1\ }$ that ${\displaystyle a^{n-1}\equiv 1{\pmod {n}}}$^[1] If n is a Fermat pseudoprime to base a, then n is a Fermat pseudoprime to base ${\displaystyle b\cdot n+a}$ for every integer ${\displaystyle b\geq 0}$

Properties

Most of the Pseudoprimes, like Euler pseudoprime, Carmichael number, Fibonacci pseudoprime and Lucas pseudoprime, are Fermat pseudoprimes.

References and notes

Further reading

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