Ideals in localizations of commutative rings #
Implementation notes #
See Mathlib/RingTheory/Localization/Basic.lean
for a design overview.
Tags #
localization, ring localization, commutative ring localization, characteristic predicate, commutative ring, field of fractions
If S
is the localization of R
at a submonoid, the ordering of ideals of S
is
embedded in the ordering of ideals of R
.
Equations
- IsLocalization.orderEmbedding M S = { toEmbedding := { toFun := fun (J : Ideal S) => Ideal.comap (algebraMap R S) J, inj' := ⋯ }, map_rel_iff' := ⋯ }
Instances For
If R
is a ring, then prime ideals in the localization at M
correspond to prime ideals in the original ring R
that are disjoint from M
.
This lemma gives the particular case for an ideal and its comap,
see le_rel_iso_of_prime
for the more general relation isomorphism
If R
is a ring, then prime ideals in the localization at M
correspond to prime ideals in the original ring R
that are disjoint from M
.
This lemma gives the particular case for an ideal and its map,
see le_rel_iso_of_prime
for the more general relation isomorphism, and the reverse implication
If R
is a ring, then prime ideals in the localization at M
correspond to prime ideals in the original ring R
that are disjoint from M
Equations
- One or more equations did not get rendered due to their size.
Instances For
quotientMap
applied to maximal ideals of a localization is surjective
.
The quotient by a maximal ideal is a field, so inverses to elements already exist,
and the localization necessarily maps the equivalence class of the inverse in the localization