Restricted power series explained

In algebra, the ring of restricted power series is the subring of a formal power series ring that consists of power series whose coefficients approach zero as degree goes to infinity.^[1] Over a non-archimedean complete field, the ring is also called a Tate algebra. Quotient rings of the ring are used in the study of a formal algebraic space as well as rigid analysis, the latter over non-archimedean complete fields.

Over a discrete topological ring, the ring of restricted power series coincides with a polynomial ring; thus, in this sense, the notion of "restricted power series" is a generalization of a polynomial.

Definition

Let A be a linearly topologized ring, separated and complete and

\{I_λ\}

the fundamental system of open ideals. Then the ring of restricted power series is defined as the projective limit of the polynomial rings over

A/I_λ

A\langlex_1,...,x_n\rangle=\varprojlim_λA/I_λ[x_1,...,x_n]

.In other words, it is the completion of the polynomial ring

A[x_1,...,x_n]

with respect to the filtration

\{I_λ[x_1,...,x_n]\}

. Sometimes this ring of restricted power series is also denoted by

A\{x_1,...,x_n\}

Clearly, the ring

A\langlex_1,...,x_n\rangle

can be identified with the subring of the formal power series ring

A[[x_1,...,x_n]]

that consists of series

\sumc_\alphax^\alpha

with coefficients

c_\alpha\to0

; i.e., each

I_λ

contains all but finitely many coefficients

c_\alpha

.Also, the ring satisfies (and in fact is characterized by) the universal property: for (1) each continuous ring homomorphism

A\toB

to a linearly topologized ring

, separated and complete and (2) each elements

b_1,...,b_n

, there exists a unique continuous ring homomorphism

A\langlex_1,...,x_n\rangle\toB,x_i\mapstob_i

extending

A\toB

Tate algebra

In rigid analysis, when the base ring A is the valuation ring of a complete non-archimedean field

(K,| ⋅ |)

, the ring of restricted power series tensored with

T_n=K\langle\xi_1,...\xi_n\rangle=A\langle\xi_1,...,\xi_n\rangle ⊗ _AK

is called a Tate algebra, named for John Tate. It is equivalently the subring of formal power series

k[[\xi_1,...,\xi_n]]

which consists of series convergent on

ak{o}_\overline{k

}^n, where

ak{o}_\overline{k

} := \ is the valuation ring in the algebraic closure

\overline{k}

The maximal spectrum of

T_n

is then a rigid-analytic space that models an affine space in rigid geometry.

Define the Gauss norm of

f=\suma_\alpha\xi^\alpha

T_n

\|f\|=max_\alpha|a_\alpha|.

This makes

T_n

a Banach algebra over k; i.e., a normed algebra that is complete as a metric space. With this norm, any ideal

T_n

is closed and thus, if I is radical, the quotient

T_n/I

is also a (reduced) Banach algebra called an affinoid algebra.

Some key results are:

(Weierstrass division) Let

g\inT_n

be a

\xi_n

-distinguished series of order s; i.e.,

	infty
\sum
	\nu=0

g_\nu

	\nu
\xi
	n

where

g_\nu\inT_n-1

g_s

is a unit element and

|g_s|=\|g\|>|g_v|

for

\nu>s

. Then for each

f\inT_n

, there exist a unique

q\inT_n

and a unique polynomial

r\inT_n-1[\xi_n]

of degree

such that

f=qg+r.

(Weierstrass preparation) As above, let

be a

\xi_n

-distinguished series of order s. Then there exist a unique monic polynomial

f\inT_n-1[\xi_n]

of degree

and a unit element

u\inT_n

such that

g=fu

(Noether normalization) If

ak{a}\subsetT_n

is an ideal, then there is a finite homomorphism

T_d\hookrightarrowT_n/ak{a}

As consequence of the division, preparation theorems and Noether normalization,

T_n

is a Noetherian unique factorization domain of Krull dimension n. An analog of Hilbert's Nullstellensatz is valid: the radical of an ideal is the intersection of all maximal ideals containing the ideal (we say the ring is Jacobson).

Results

Results for polynomial rings such as Hensel's lemma, division algorithms (or the theory of Gröbner bases) are also true for the ring of restricted power series. Throughout the section, let A denote a linearly topologized ring, separated and complete.

(Hensel) Let

akm\subsetA

be a maximal ideal and

\varphi:A\tok:=A/ak{m}

the quotient map. Given an

A\langle\xi\rangle

, if

\varphi(F)=gh

for some monic polynomial

g\ink[\xi]

and a restricted power series

h\ink\langle\xi\rangle

such that

g,h

generate the unit ideal of

k\langle\xi\rangle

, then there exist

A[\xi]

and

A\langle\xi\rangle

such that

F=GH,\varphi(G)=g,\varphi(H)=h

References

Book: Bourbaki, N. . 2006 . Algèbre commutative: Chapitres 1 à 4 . Springer Berlin Heidelberg . 9783540339373.

External links

https://ncatlab.org/nlab/show/restricted+formal+power+series
http://math.stanford.edu/~conrad/papers/aws.pdf
https://web.archive.org/web/20060916051553/http://www-math.mit.edu/~kedlaya//18.727/tate-algebras.pdf

Restricted power series explained

Definition

Tate algebra

Results

References

See also

External links

Notes and References