Smallest quadratic nonresidue: Difference between revisions

Latest revision as of 16:07, 5 May 2009

Definition

Let $p$ be a prime number. The smallest quadratic nonresidue modulo $p$ is the smallest positive integer $q$ such that the congruence class of $q$ modulo $p$ is not a square; in other words, $q$ is the smallest quadratic nonresidue modulo $p$ .

The smallest quadratic nonresidue modulo a prime is always a prime.

Facts and conjectures

Extended Riemann hypothesis: This states that the smallest quadratic nonresidue modulo $p$ is less than $3(\log p)^{2}/2$ . This is a conjecture, and has not been proved.

Facts

Smallest quadratic nonresidue is less than squareroot plus one: This states that the smallest quadratic nonresidue modulo $p$ is less than ${\sqrt {p}}+1$ . This has been proved.
Every prime is the smallest quadratic nonresidue for infinitely many primes: This follows from the fact that every integer that is not a perfect square is a quadratic nonresidue for infinitely many primes.

Revision as of 16:01, 5 May 2009 (view source) Vipul (talk \| contribs) (Created page with '==Definition== Let <math>p</math> be a prime number. The '''smallest quadratic nonresidue''' modulo <math>p</math> is the smallest positive integer <math>q</math> such that ...')		Latest revision as of 16:07, 5 May 2009 (view source) Vipul (talk \| contribs) (→‎Facts)
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	* [[Smallest quadratic nonresidue is less than squareroot plus one]]: This states that the smallest quadratic nonresidue modulo <math>p</math> is less than <math>\sqrt{p} + 1</math>. This has been proved.		* [[Smallest quadratic nonresidue is less than squareroot plus one]]: This states that the smallest quadratic nonresidue modulo <math>p</math> is less than <math>\sqrt{p} + 1</math>. This has been proved.
	* [[Every integer that is not a perfect square is a quadratic nonresidue for infinitely many primes]]~~: In particular, this implies that the smallest quadratic nonresidue takes small values for arbitrarily large primes~~.		* [[Every prime is the smallest quadratic nonresidue for infinitely many primes]]: This follows from the fact that [[every integer that is not a perfect square is a quadratic nonresidue for infinitely many primes]].