Monogenic field: Difference between revisions

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In mathematics, a monogenic field is an algebraic number field for which there exists an element a such that the ring of integers O_K is a polynomial ring Z[a]. The powers of such a element a constitute a power integral basis.

In a monogenic field K, the field discriminant of K is equal to the discriminant of the minimal polynomial of α.

Examples

Examples of monogenic fields include:

• Quadratic fields: if ${\displaystyle K=\mathbf {Q} ({\sqrt {d}})}$ with ${\displaystyle d}$ a square-free integer then ${\displaystyle O_{K}=\mathbf {Z} [a]}$ where ${\displaystyle a=(1+{\sqrt {d}})/2}$ if d≡1 (mod 4) and ${\displaystyle a={\sqrt {d}}}$ if d≡2 or 3 (mod 4).
• Cyclotomic fields: if ${\displaystyle K=\mathbf {Q} (\zeta )}$ with ${\displaystyle \zeta }$ a root of unity, then ${\displaystyle O_{K}=\mathbf {Z} [\zeta ]}$.

Not all number fields are monogenic: Dirichlet gave the example of the cubic field generated by a root of the polynomial ${\displaystyle X^{3}-X^{2}-2X-8}$.

References

• Narkiewicz, Władysław (2004). Elementary and Analytic Theory of Algebraic Numbers. Springer-Verlag, 64. ISBN 3540219021.