Unramified Extension Generic

This file implements the shared functionality for unramified extensions.

AUTHORS:

  • David Roe

class sage.rings.padics.unramified_extension_generic.UnramifiedExtensionGeneric(poly, prec, print_mode, names, element_class)

Bases: sage.rings.padics.padic_extension_generic.pAdicExtensionGeneric

An unramified extension of Qp or Zp.

absolute_f()

Return the degree of the residue field of this ring/field over its prime subfield

EXAMPLES:

sage: K.<a> = Qq(3^5)
sage: K.absolute_f()
5

sage: L.<pi> = Qp(3).extension(x^2 - 3)
sage: L.absolute_f()
1
discriminant(K=None)

Returns the discriminant of self over the subring K.

INPUT:

  • K – a subring/subfield (defaults to the base ring).

EXAMPLES:

sage: R.<a> = Zq(125)
sage: R.discriminant()
Traceback (most recent call last):
...
NotImplementedError
gen(n=0)

Returns a generator for this unramified extension.

This is an element that satisfies the polynomial defining this extension. Such an element will reduce to a generator of the corresponding residue field extension.

EXAMPLES:

sage: R.<a> = Zq(125); R.gen()
a + O(5^20)
has_pth_root()

Returns whether or not \(\ZZ_p\) has a primitive \(p^{\mbox{th}}\) root of unity.

Since adjoining a \(p^{\mbox{th}}\) root of unity yields a totally ramified extension, self will contain one if and only if the ground ring does.

INPUT:

  • self – a p-adic ring

OUTPUT:

  • boolean – whether self has primitive \(p^{\mbox{th}}\) root of unity.

EXAMPLES:

sage: R.<a> = Zq(1024); R.has_pth_root()
True
sage: R.<a> = Zq(17^5); R.has_pth_root()
False
has_root_of_unity(n)

Return whether or not \(\ZZ_p\) has a primitive \(n^{\mbox{th}}\) root of unity.

INPUT:

  • self – a p-adic ring

  • n – an integer

OUTPUT:

  • boolean

EXAMPLES:

sage: R.<a> = Zq(37^8)
sage: R.has_root_of_unity(144)
True
sage: R.has_root_of_unity(89)
True
sage: R.has_root_of_unity(11)
False
is_galois(K=None)

Returns True if this extension is Galois.

Every unramified extension is Galois.

INPUT:

  • K – a subring/subfield (defaults to the base ring).

EXAMPLES:

sage: R.<a> = Zq(125); R.is_galois()
True
residue_class_field()

Returns the residue class field.

EXAMPLES:

sage: R.<a> = Zq(125); R.residue_class_field()
Finite Field in a0 of size 5^3
residue_ring(n)

Return the quotient of the ring of integers by the nth power of its maximal ideal.

EXAMPLES:

sage: R.<a> = Zq(125)
sage: R.residue_ring(1)
Finite Field in a0 of size 5^3

The following requires implementing more general Artinian rings:

sage: R.residue_ring(2)
Traceback (most recent call last):
...
NotImplementedError
uniformizer()

Returns a uniformizer for this extension.

Since this extension is unramified, a uniformizer for the ground ring will also be a uniformizer for this extension.

EXAMPLES:

sage: R.<a> = ZqCR(125)
sage: R.uniformizer()
5 + O(5^21)
uniformizer_pow(n)

Returns the nth power of the uniformizer of self (as an element of self).

EXAMPLES:

sage: R.<a> = ZqCR(125)
sage: R.uniformizer_pow(5)
5^5 + O(5^25)