Formal Completion
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In
mathematics Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in modern mathematics ...
, specifically in
algebraic geometry Algebraic geometry is a branch of mathematics, classically studying zeros of multivariate polynomials. Modern algebraic geometry is based on the use of abstract algebraic techniques, mainly from commutative algebra, for solving geometrical ...
, a formal scheme is a type of space which includes data about its surroundings. Unlike an ordinary
scheme A scheme is a systematic plan for the implementation of a certain idea. Scheme or schemer may refer to: Arts and entertainment * ''The Scheme'' (TV series), a BBC Scotland documentary series * The Scheme (band), an English pop band * ''The Schem ...
, a formal scheme includes infinitesimal data that, in effect, points in a direction off of the scheme. For this reason, formal schemes frequently appear in topics such as
deformation theory In mathematics, deformation theory is the study of infinitesimal conditions associated with varying a solution ''P'' of a problem to slightly different solutions ''P''ε, where ε is a small number, or a vector of small quantities. The infinitesim ...
. But the concept is also used to prove a theorem such as the
theorem on formal functions In algebraic geometry, the theorem on formal functions states the following: :Let f: X \to S be a proper morphism of noetherian schemes with a coherent sheaf \mathcal on ''X''. Let S_0 be a closed subscheme of ''S'' defined by \mathcal and \widehat, ...
, which is used to deduce theorems of interest for usual schemes. A locally Noetherian scheme is a locally Noetherian formal scheme in the canonical way: the formal completion along itself. In other words, the category of locally Noetherian formal schemes contains all locally Noetherian schemes. Formal schemes were motivated by and generalize Zariski's theory of
formal holomorphic function In algebraic geometry, a formal holomorphic function along a subvariety ''V'' of an algebraic variety ''W'' is an algebraic analog of a holomorphic function defined in a neighborhood of ''V''. They are sometimes just called holomorphic functions whe ...
s. Algebraic geometry based on formal schemes is called formal algebraic geometry.


Definition

Formal schemes are usually defined only in the
Noetherian In mathematics, the adjective Noetherian is used to describe Category_theory#Categories.2C_objects.2C_and_morphisms, objects that satisfy an ascending chain condition, ascending or descending chain condition on certain kinds of subobjects, meaning t ...
case. While there have been several definitions of non-Noetherian formal schemes, these encounter technical problems. Consequently, we will only define locally noetherian formal schemes. All rings will be assumed to be
commutative In mathematics, a binary operation is commutative if changing the order of the operands does not change the result. It is a fundamental property of many binary operations, and many mathematical proofs depend on it. Most familiar as the name o ...
and with
unit Unit may refer to: Arts and entertainment * UNIT, a fictional military organization in the science fiction television series ''Doctor Who'' * Unit of action, a discrete piece of action (or beat) in a theatrical presentation Music * ''Unit'' (alb ...
. Let ''A'' be a (Noetherian)
topological ring In mathematics, a topological ring is a ring R that is also a topological space such that both the addition and the multiplication are continuous as maps: R \times R \to R where R \times R carries the product topology. That means R is an additive ...
, that is, a ring ''A'' which is a
topological space In mathematics, a topological space is, roughly speaking, a geometrical space in which closeness is defined but cannot necessarily be measured by a numeric distance. More specifically, a topological space is a set whose elements are called points ...
such that the operations of addition and multiplication are continuous. ''A'' is linearly topologized if zero has a base consisting of
ideal Ideal may refer to: Philosophy * Ideal (ethics), values that one actively pursues as goals * Platonic ideal, a philosophical idea of trueness of form, associated with Plato Mathematics * Ideal (ring theory), special subsets of a ring considere ...
s. An ideal of definition \mathcal for a linearly topologized ring is an open ideal such that for every open neighborhood ''V'' of 0, there exists a positive integer ''n'' such that \mathcal^n \subseteq V. A linearly topologized ring is preadmissible if it admits an ideal of definition, and it is admissible if it is also
complete Complete may refer to: Logic * Completeness (logic) * Completeness of a theory, the property of a theory that every formula in the theory's language or its negation is provable Mathematics * The completeness of the real numbers, which implies t ...
. (In the terminology of Bourbaki, this is "complete and separated".) Assume that ''A'' is admissible, and let \mathcal be an ideal of definition. A prime ideal is open if and only if it contains \mathcal. The set of open prime ideals of ''A'', or equivalently the set of prime ideals of A/\mathcal, is the underlying topological space of the formal spectrum of ''A'', denoted Spf ''A''. Spf ''A'' has a structure sheaf which is defined using the structure sheaf of the
spectrum of a ring In commutative algebra, the prime spectrum (or simply the spectrum) of a ring ''R'' is the set of all prime ideals of ''R'', and is usually denoted by \operatorname; in algebraic geometry it is simultaneously a topological space equipped with the ...
. Let \mathcal_\lambda be a neighborhood basis for zero consisting of ideals of definition. All the spectra of A/\mathcal_\lambda have the same underlying topological space but a different structure sheaf. The structure sheaf of Spf ''A'' is the projective limit \varprojlim_\lambda \mathcal_. It can be shown that if ''f'' ∈ ''A'' and ''D''''f'' is the set of all open prime ideals of ''A'' not containing ''f'', then \mathcal_(D_f) = \widehat, where \widehat is the completion of the
localization Localization or localisation may refer to: Biology * Localization of function, locating psychological functions in the brain or nervous system; see Linguistic intelligence * Localization of sensation, ability to tell what part of the body is a ...
''A''''f''. Finally, a locally noetherian formal scheme is a topologically ringed space (\mathfrak, \mathcal_) (that is, a
ringed space In mathematics, a ringed space is a family of (commutative) rings parametrized by open subsets of a topological space together with ring homomorphisms that play roles of restrictions. Precisely, it is a topological space equipped with a sheaf of ...
whose sheaf of rings is a sheaf of topological rings) such that each point of \mathfrak admits an open neighborhood isomorphic (as topologically ringed spaces) to the formal spectrum of a noetherian ring.


Morphisms between formal schemes

A morphism f: \mathfrak \to \mathfrak of locally noetherian formal schemes is a morphism of them as locally ringed spaces such that the induced map f^: \Gamma(U, \mathcal_\mathfrak) \to \Gamma(f^(U), \mathcal_\mathfrak) is a continuous homomorphism of topological rings for any affine open subset ''U''. ''f'' is said to be ''adic'' or ''\mathfrak is a \mathfrak-adic formal scheme'' if there exists an ideal of definition \mathcal such that f^*(\mathcal) \mathcal_\mathfrak is an ideal of definition for \mathfrak. If ''f'' is adic, then this property holds for any ideal of definition.


Examples

For any ideal ''I'' and ring ''A'' we can define the ''I-adic topology'' on ''A'', defined by its basis consisting of sets of the form ''a+In''. This is preadmissible, and admissible if ''A'' is ''I''-adically complete. In this case ''Spf A'' is the topological space ''Spec A/I'' with sheaf of rings \text_n \mathcal_=\lim_n \widetilde instead of \widetilde. # ''A=k t'' and ''I=(t)''. Then ''A/I=k'' so the space ''Spf A'' a single point ''(t)'' on which its structure sheaf takes value ''k t''. Compare this to ''Spec A/I'', whose structure sheaf takes value ''k'' at this point: this is an example of the idea that ''Spf A'' is a 'formal thickening' of ''A'' about ''I''. # The formal completion of a closed subscheme. Consider the closed subscheme ''X'' of the affine plane over ''k'', defined by the ideal ''I=(y2-x3)''. Note that ''A0=k ,y' is not ''I''-adically complete; write ''A'' for its ''I''-adic completion. In this case, ''Spf A=X'' as spaces and its structure sheaf is \lim_n \widetilde. Its global sections are ''A'', as opposed to ''X'' whose global sections are ''A/I''.


See also

*
formal holomorphic function In algebraic geometry, a formal holomorphic function along a subvariety ''V'' of an algebraic variety ''W'' is an algebraic analog of a holomorphic function defined in a neighborhood of ''V''. They are sometimes just called holomorphic functions whe ...
*
Deformation theory In mathematics, deformation theory is the study of infinitesimal conditions associated with varying a solution ''P'' of a problem to slightly different solutions ''P''ε, where ε is a small number, or a vector of small quantities. The infinitesim ...
*
Schlessinger's theorem In algebra, Schlessinger's theorem is a theorem in deformation theory introduced by that gives conditions for a functor of artinian local rings to be pro-representable, refining an earlier theorem of Grothendieck. Definitions Λ is a complete N ...


References

*{{EGA , book=I


External links


formal completion
Algebraic geometry Scheme theory