Eisenstein Extension Generic#
This file implements the shared functionality for Eisenstein extensions.
AUTHORS:
David Roe
- class sage.rings.padics.eisenstein_extension_generic.EisensteinExtensionGeneric(poly, prec, print_mode, names, element_class)#
Bases:
sage.rings.padics.padic_extension_generic.pAdicExtensionGeneric
Initializes self.
EXAMPLES:
sage: A = Zp(7,10) sage: S.<x> = A[] sage: B.<t> = A.ext(x^2+7) #indirect doctest
- absolute_e()#
Return the absolute ramification index of this ring or field
EXAMPLES:
sage: K.<a> = Qq(3^5) sage: K.absolute_e() 1 sage: L.<pi> = Qp(3).extension(x^2 - 3) sage: L.absolute_e() 2
- gen(n=0)#
Returns a generator for self as an extension of its ground ring.
EXAMPLES:
sage: A = Zp(7,10) sage: S.<x> = A[] sage: B.<t> = A.ext(x^2+7) sage: B.gen() t + O(t^21)
- inertia_subring()#
Returns the inertia subring.
Since an Eisenstein extension is totally ramified, this is just the ground field.
EXAMPLES:
sage: A = Zp(7,10) sage: S.<x> = A[] sage: B.<t> = A.ext(x^2+7) sage: B.inertia_subring() 7-adic Ring with capped relative precision 10
- residue_class_field()#
Returns the residue class field.
INPUT:
self – a p-adic ring
OUTPUT:
the residue field
EXAMPLES:
sage: A = Zp(7,10) sage: S.<x> = A[] sage: B.<t> = A.ext(x^2+7) sage: B.residue_class_field() Finite Field of size 7
- residue_ring(n)#
Return the quotient of the ring of integers by the nth power of its maximal ideal.
EXAMPLES:
sage: S.<x> = ZZ[] sage: W.<w> = Zp(5).extension(x^2 - 5) sage: W.residue_ring(1) Ring of integers modulo 5
The following requires implementing more general Artinian rings:
sage: W.residue_ring(2) Traceback (most recent call last): ... NotImplementedError
- uniformizer()#
Returns the uniformizer of self, ie a generator for the unique maximal ideal.
EXAMPLES:
sage: A = Zp(7,10) sage: S.<x> = A[] sage: B.<t> = A.ext(x^2+7) sage: B.uniformizer() t + O(t^21)
- uniformizer_pow(n)#
Returns the nth power of the uniformizer of self (as an element of self).
EXAMPLES:
sage: A = Zp(7,10) sage: S.<x> = A[] sage: B.<t> = A.ext(x^2+7) sage: B.uniformizer_pow(5) t^5 + O(t^25)