Euler pseudoprime: Difference between revisions

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A composite number n is called an Euler pseudoprime to a natural base a if $\scriptstyle a^{\frac {n-1}{2}}\equiv 1{\pmod {n}}$ or $\scriptstyle a^{\frac {n-1}{2}}\equiv \left(-1\right){\pmod {n}}$

Properties

Every Euler pseudoprime is odd.
Every Euler pseudoprime is also a Fermat pseudoprime:

\left(a^{\frac {n-1}{2}}\right)^{2}=a^{n-1}

and

1^{2}=\left(-1\right)^{2}=1\

Every Euler Pseudoprime to base a that satisfies $\scriptstyle a^{\frac {n-1}{2}}\equiv \left({\frac {a}{n}}\right){\pmod {n}}$ is an Euler-Jacobi pseudoprime.
Strong pseudoprimes are Euler pseudoprimes too.

Absolute Euler pseudoprime

An absolute Euler pseudoprime is a composite number c that satisfies the congruence $\scriptstyle a^{\frac {c-1}{2}}\equiv 1{\pmod {c}}$ or $\scriptstyle a^{\frac {n-1}{2}}\equiv \left(-1\right){\pmod {n}}$ for every base a that is coprime to c. Every absolute Euler pseudoprime is also a Carmichael number.

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 == Further reading ==
 * [[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
+* [[Paulo Ribenboim]]. The New Book of Prime Number Records. Springer-Verlag, 1996, ISBN 0-387-94457-5
 [[Category:Mathematics Workgroup]]
 [[Category:Stub Articles]]
 [[Category:CZ Live]]

Euler pseudoprime: Difference between revisions

Revision as of 07:57, 15 June 2009

Properties

Absolute Euler pseudoprime

Further reading

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