Quadratic field: Difference between revisions
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imported>Richard Pinch (skeleton section headings; supplied reference Stewart+Tall) |
imported>Richard Pinch (→Ring of integers: added statement) |
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==Ring of integers== | ==Ring of integers== | ||
As above, we take ''d'' to be a square-free integer. The [[maximal order]] of ''F'' is | |||
:<math>O_F = \mathbf{Z}[\sqrt d] \,</math> | |||
unless <math>d \equiv 1 \pmod 4</math> in which case | |||
:<math>O_F = \mathbf{Z}\left[\frac{1+\sqrt d}{2}\right] .</math> | |||
===Discriminant=== | |||
The [[field discriminant]] of ''F'' is ''d'' if <math>d \equiv 1 \pmod 4</math> and otherwise 4''d''. | |||
===Unit group=== | ===Unit group=== | ||
===Class group=== | ===Class group=== |
Revision as of 07:46, 7 December 2008
In mathematics, a quadratic field is a field which is an extension of its prime field of degree two.
In the case when the prime field is finite, so is the quadratic field, and we refer to the article on finite fields. In this article we treat quadratic extensions of the field Q of rational numbers.
In characteristic zero, every quadratic equation is soluble by taking one square root, so a quadratic field is of the form for a non-zero non-square rational number d. Multiplying by a square integer, we may assume that d is in fact a square-free integer.
Ring of integers
As above, we take d to be a square-free integer. The maximal order of F is
unless in which case
Discriminant
The field discriminant of F is d if and otherwise 4d.
Unit group
Class group
Splitting of primes
References
- I.N. Stewart; D.O. Tall (1979). Algebraic number theory. Chapman and Hall, 59-62. ISBN 0-412-13840-9.