Euler pseudoprime: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Karsten Meyer
mNo edit summary
imported>Karsten Meyer
No edit summary
Line 9: Line 9:
*Every Euler Pseudoprime to base ''a'', which satisfy <math>a^{(n-1)/2}\equiv\left(\frac an\right)\pmod n</math> is an [[Euler-Jacobi pseudoprime]].
*Every Euler Pseudoprime to base ''a'', which satisfy <math>a^{(n-1)/2}\equiv\left(\frac an\right)\pmod n</math> is an [[Euler-Jacobi pseudoprime]].
*[[Carmichael number|Carmichael numbers]] and [[Strong pseudoprime|Strong pseudoprimes]] are Euler pseudoprimes too.
*[[Carmichael number|Carmichael numbers]] and [[Strong pseudoprime|Strong pseudoprimes]] are Euler pseudoprimes too.
== Absolute Euler pseudoprime ==
An absolute Euler pseudoprime is a composite number ''c'', that satisfies the conrgruence <math>a^{\frac{c-1}{2}} \equiv 1 \pmod c </math> for every base ''a'' that is coprime to ''c''. Every absolute Euler pseudoprime is also a [[Carmichael number]].


== Further reading ==
== Further reading ==

Revision as of 21:33, 7 November 2007

A composite number n is called an Euler pseudoprime to a natural base a, if or

Properties

and

Absolute Euler pseudoprime

An absolute Euler pseudoprime is a composite number c, that satisfies the conrgruence for every base a that is coprime to c. Every absolute Euler pseudoprime is also a Carmichael number.

Further reading