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Index of articles associated with the same name
In mathematics, the adjective Noetherian is used to describe objects that satisfy an ascending or descending chain condition on certain kinds of subobjects
Noetherian
Mathematical ring with well-behaved ideals
In mathematics, a Noetherian ring is a ring that satisfies the ascending chain condition on left and right ideals. If the chain condition is satisfied
Noetherian_ring
Concept in algebraic geometry
is a Noetherian ring. More generally, a scheme is locally Noetherian if it is covered by spectra of Noetherian rings. Thus, a scheme is Noetherian if and
Noetherian_scheme
Topological space in which closed subsets satisfy the descending chain condition
In mathematics, a Noetherian topological space, named for Emmy Noether, is a topological space in which closed subsets satisfy the descending chain condition
Noetherian_topological_space
Polynomial ideals are finitely generated
whose ideals have this property are called Noetherian rings. Every field, and the ring of integers are Noetherian rings. So, the theorem can be generalized
Hilbert's_basis_theorem
In mathematics, dimension of a ring
chains of prime ideals. The Krull dimension need not be finite even for a Noetherian ring. More generally the Krull dimension can be defined for modules over
Krull_dimension
Concept in commutative algebra
In commutative algebra, a quasi-excellent ring is a Noetherian commutative ring that behaves well with respect to the operation of completion, and is called
Excellent_ring
Branch of algebra that studies commutative rings
rings over a field are Noetherian is called Hilbert's basis theorem. Moreover, many ring constructions preserve the Noetherian property. In particular
Commutative_algebra
Abstract algebra module
In abstract algebra, a Noetherian module is a module that satisfies the ascending chain condition on its submodules, where the submodules are partially
Noetherian_module
German mathematician (1882–1935)
Noetherian in her honor. By definition, a Noetherian ring satisfies an ascending chain condition on its left and right ideals, whereas a Noetherian group
Emmy_Noether
In algebra, expression of an ideal as the intersection of ideals of a specific type
In mathematics, the Lasker–Noether theorem states that every Noetherian ring is a Lasker ring, which means that every ideal can be decomposed as an intersection
Primary_decomposition
Noetherian and Artinian. Homomorphic images and subgroups of Noetherian groups are Noetherian, and an extension of a Noetherian group by a Noetherian
Subgroup_series
theorem, introduced by Cohen (1946), describes the structure of complete Noetherian local rings. Some consequences of Cohen's structure theorem include three
Cohen_structure_theorem
a semiprimary ring and M is an R-module, the three module conditions Noetherian, Artinian and "has a composition series" are equivalent. Without the semiprimary
Hopkins–Levitzki_theorem
Type of space in mathematics
deduce theorems of interest for usual schemes. A locally Noetherian scheme is a locally Noetherian formal scheme in the canonical way: the formal completion
Formal_scheme
Concept in ring theory and homological algebra
theory of Noetherian rings. By a theorem of Jean-Pierre Serre, global dimension can be used to characterize within the class of commutative Noetherian local
Global_dimension
In algebra, module with a finite generating set
over a Noetherian ring R is Noetherian. Both facts imply that a finitely generated commutative algebra over a Noetherian ring is again a Noetherian ring
Finitely_generated_module
Type of commutative ring in mathematics
series rings. All Cohen–Macaulay rings have the unmixedness property. For Noetherian local rings, there is the following chain of inclusions. Universally catenary
Cohen–Macaulay_ring
Ring in abstract algebra
a left (resp. right) Noetherian ring. This is not true for general modules; that is, an Artinian module need not be a Noetherian module. An integral domain
Artinian_ring
Type of binary relation
well-founded. A relation R is converse well-founded, upwards well-founded, or Noetherian on X, if the converse relation R−1 is well-founded on X. In this case
Well-founded_relation
(Mathematical) ring with a unique maximal ideal
authors required that a local ring be (left and right) Noetherian, and (possibly non-Noetherian) local rings were called quasi-local rings. In this article
Local_ring
Tate and his former advisor Emil Artin, states: Let A be a commutative Noetherian ring and B ⊂ C {\displaystyle B\subset C} commutative algebras over A
Artin–Tate_lemma
About extensions of one-dimensional Noetherian rings (commutative algebra)
Krull–Akizuki theorem states the following: Let A be a one-dimensional reduced noetherian ring, K its total ring of fractions. Suppose L is a finite extension of
Krull–Akizuki_theorem
pseudo-geometric ring if it is Noetherian and universally Japanese (or, which turns out to be the same, if it is Noetherian and all of its quotients by a
Nagata_ring
mathematics, the Artin–Rees lemma is a basic result about modules over a Noetherian ring, along with results such as the Hilbert basis theorem. It was proved
Artin–Rees_lemma
Integral domain in which the sum of two principal ideals is again a principal ideal
ideal domain (PID) is a Bézout domain, but a Bézout domain need not be a Noetherian ring, so it could have non-finitely generated ideals; if so, it is not
Bézout_domain
Algebraic structure
finite-dimensional vector spaces in linear algebra. In particular, Noetherian rings (see also § Noetherian rings, below) can be defined as the rings such that every
Commutative_ring
Mathematical object in abstract algebra
essential extensions, and turn out to be minimal injective extensions. Over a Noetherian ring, every injective module is uniquely a direct sum of indecomposable
Injective_module
1-dimensional normal Noetherian local ring is analytically unramified; more precisely he showed that a 1-dimensional normal Noetherian local domain is analytically
Analytically_unramified_ring
Algebraic structure
discrete valuation ring. A noetherian ring is a Krull domain if and only if it is an integrally closed domain. In the non-noetherian setting, one has the following:
Integrally_closed_domain
Prime ideal that is an annihilator of a prime submodule
to the Lasker–Noether primary decomposition of ideals in commutative Noetherian rings. Specifically, if an ideal J is decomposed as a finite intersection
Associated_prime
Type of ring in commutative algebra
In commutative algebra, a regular local ring is a Noetherian local ring having the property that the minimal number of generators of its maximal ideal
Regular_local_ring
Type of mathematical function
as a Noetherian chain, and a function constructed as a polynomial in this chain is called a Noetherian function. So, for example, a Noetherian chain
Pfaffian_function
Concept in commutative algebra
ideals is important in commutative ring theory because every ideal of a Noetherian ring has a primary decomposition, that is, can be written as an intersection
Primary_ideal
Theorem in algebra
algebra, Matlis duality is a duality between Artinian and Noetherian modules over a complete Noetherian local ring. In the special case when the local ring
Matlis_duality
Local ring in commutative algebra
In commutative algebra, a Gorenstein local ring is a commutative Noetherian local ring R with finite injective dimension as an R-module. There are many
Gorenstein_ring
Concept in abstract algebra
R} is Noetherian and a local domain whose unique maximal ideal is principal, and not a field. R {\displaystyle R} is integrally closed, Noetherian, and
Discrete_valuation_ring
Mathematical structure with greatest common divisors
A GCD domain generalizes a unique factorization domain (UFD) to a non-Noetherian setting in the following sense: an integral domain is a UFD if and only
GCD_domain
In algebraic geometry, a regular scheme is a locally Noetherian scheme whose local rings are regular everywhere. Every smooth scheme is regular, and every
Regular_scheme
Construction in commutative algebra
between R and its associated graded ring grIR. Assume R is Noetherian; then R[It] is also Noetherian. The Krull dimension of the Rees algebra is dim R [
Rees_algebra
can be defined using the "minimum possible" number of relations. For Noetherian local rings, there is the following chain of inclusions: Universally catenary
Complete_intersection_ring
Mathematical element
dimension at most 2 is noetherian; Nagata gave an example of dimension 3 noetherian domain whose integral closure is not noetherian. A nicer statement is
Integral_element
Skolem–Noether theorem Noetherian Noetherian group Noetherian induction Noetherian module Noetherian ring Noetherian scheme Noetherian topological space "Noether
List of things named after Emmy Noether
List_of_things_named_after_Emmy_Noether
Algebraic structure
generated modules over Noetherian rings can be extended to finitely presented modules over coherent rings. Every left Noetherian ring is left coherent
Coherent_ring
Branch of algebra
better understanding of noncommutative rings, especially noncommutative Noetherian rings. For the definitions of a ring and basic concepts and their properties
Ring_theory
complete Noetherian local ring whose spectrum is k-connected and f is in the maximal ideal, then Spec(A/fA) is (k − 1)-connected. Here a Noetherian scheme
Grothendieck's connectedness theorem
Grothendieck's_connectedness_theorem
complete intersection rings ⊃ regular local rings Suppose that A is a Noetherian domain and B is a domain containing A that is finitely generated over
Catenary_ring
ring is a Noetherian ring such that the map of any of its local rings to the completion is regular (defined below). Almost all Noetherian rings that
G-ring
{\displaystyle A} , if B {\displaystyle B} is a Noetherian ring, then A {\displaystyle A} is a Noetherian ring. (Note the converse is also true and is easier
Eakin–Nagata_theorem
In algebra, completion w.r.t. powers of an ideal
plane. The completion of a Noetherian ring with respect to some ideal is a Noetherian ring. The completion of a Noetherian local ring with respect to
Completion_of_a_ring
Mathematical problem in ring theory
of powers of the Jacobson radical of a Noetherian ring. It has only been proven for special types of Noetherian rings, so far. Examples exist to show that
Jacobson's_conjecture
Invariant of rings and modules
most common case considered is the case of modules over a commutative Noetherian local ring. In this case, the depth of a module is related with its projective
Depth_(ring_theory)
Theorem in commutative algebra
(1899–1971), gives a bound on the height of a principal ideal in a commutative Noetherian ring. The theorem is sometimes referred to by its German name, Krulls
Krull's principal ideal theorem
Krull's_principal_ideal_theorem
Result in ring theory
particular, Goldie's theorem applies to semiprime right Noetherian rings, since by definition right Noetherian rings have the ascending chain condition on all
Goldie's_theorem
Term in algebraic geometry
finite presentation, which follows from the other assumptions if Y is noetherian. For X proper over a scheme S, and Y separated over S, the image of any
Proper_morphism
Mathematical concept in dimension theory of local rings
In mathematics, a system of parameters for a local Noetherian ring of Krull dimension d with maximal ideal m is a set of elements x1, ..., xd that satisfies
System_of_parameters
Module which satisfies the descending chain condition on submodules
Since an Artinian ring is also a Noetherian ring, and finitely-generated modules over a Noetherian ring are Noetherian, it is true that for an Artinian
Artinian_module
Mathematical technique in algebraic geometry
statements about coherent sheaves on Noetherian schemes. Dévissage is an adaptation of a certain kind of Noetherian induction. It has many applications
Dévissage
Algebraic formula
and Buchsbaum (1957, theorem 3.7), states that if R is a commutative Noetherian local ring and M is a non-zero finitely generated R-module of finite projective
Auslander–Buchsbaum_formula
Invariant for finitely generated modules over a Noetherian ring
the grade of a finitely generated module M {\displaystyle M} over a Noetherian ring R {\displaystyle R} is a cohomological invariant defined by vanishing
Grade_(ring_theory)
a type of commutative ring that generalizes Dedekind domains in a non-Noetherian context. These rings possess the nice ideal- and module-theoretic properties
Prüfer_domain
Generalization of vector bundles
{F}})} over A {\displaystyle A} . When X {\displaystyle X} is a locally Noetherian scheme, F {\displaystyle {\mathcal {F}}} is coherent if and only if it
Coherent_sheaf
Would relate vector bundles over a regular Noetherian ring and over a polynomial ring
mathematics, the Bass–Quillen conjecture relates vector bundles over a regular Noetherian ring A and over the polynomial ring A [ t 1 , … , t n ] {\displaystyle
Bass–Quillen_conjecture
of locally Noetherian schemes, namely those which are covered by the spectra of Noetherian rings. The fact that localizations of a Noetherian ring are still
Glossary of algebraic geometry
Glossary_of_algebraic_geometry
American mathematician (1917–1955)
University. In his thesis he proved the Cohen structure theorem for complete Noetherian local rings. In 1946 he proved the unmixedness theorem for power series
Irvin_Cohen
In algebra, integer associated to a module
space. In commutative algebra and algebraic geometry, a module over a Noetherian commutative ring R {\displaystyle R} can have finite length only when
Length_of_a_module
Generalization of algebraic variety
rings. The cases of main interest are the Noetherian schemes, in which the coordinate rings are Noetherian rings. Formally, a scheme is a ringed space
Scheme_(mathematics)
irreducible. To start, X {\displaystyle X} is noetherian since it is of finite type over a noetherian base. Therefore it has finitely many irreducible
Chow's_lemma
In algebraic geometry, a Noetherian local ring R is called parafactorial if it has depth at least 2 and the Picard group Pic(Spec(R) − m) of its spectrum
Parafactorial_local_ring
§ Noncommutative rings below.) Noetherian rings (e.g. principal ideal domains) are typical examples, but some important non-Noetherian rings also satisfy (ACCP)
Ascending chain condition on principal ideals
Ascending_chain_condition_on_principal_ideals
Theorem in commutative algebra
Yoshiro Mori (1953) and Nagata (1955), states the following: let A be a noetherian reduced commutative ring with the total ring of fractions K. Then the
Mori–Nagata_theorem
Branch of mathematics
publication gave rise to the term "Noetherian ring", and several other mathematical objects being called Noetherian. Noted algebraist Irving Kaplansky
Abstract_algebra
Generalizations of codimension-1 subvarieties of algebraic varieties
is isomorphic to the Riemann sphere CP1. Let X be an integral locally Noetherian scheme. A prime divisor or irreducible divisor on X is an integral closed
Divisor_(algebraic_geometry)
Emmy Noether's special case of the idea (and decomposition result) for Noetherian rings, and has proved to be a powerful generalization of the notion of
Subdirect_product
Algebra with unique prime factorization
is the fact that being a Dedekind domain is, among Noetherian domains, a local property: a Noetherian domain R {\displaystyle R} is Dedekind iff for every
Dedekind_domain
Minimal element in the set of prime ideals ordered by inclusion
ideal over the zero ideal. A minimal prime ideal over an ideal I in a Noetherian ring R is precisely a minimal associated prime (also called isolated prime)
Minimal_prime_ideal
viewed as a complex concentrated at degree zero. For example, if A is Noetherian, a module over A is perfect if and only if it is finitely generated and
Perfect_complex
In mathematics, a Jaffard ring is a type of ring, more general than a Noetherian ring, for which Krull dimension behaves as expected in polynomial extensions
Jaffard_ring
Well-behaved sequence in a commutative ring
y,z]/(y(1-x)) since z(1-x), y ≠ 0 but z(1-x)y = 0. However, if R is a Noetherian local ring and the elements ri are in the maximal ideal, or if R is a
Regular_sequence
intersection of all powers of the Jacobson radical of a left-and-right Noetherian ring is precisely 0. Kaplansky's conjectures Köthe conjecture: if a ring
List of unsolved problems in mathematics
List_of_unsolved_problems_in_mathematics
Grothendieck. Generic flatness states that if Y is an integral locally noetherian scheme, u : X → Y is a finite type morphism of schemes, and F is a coherent
Generic_flatness
1969 mathematics textbook
algebra including localization, primary decomposition, integral dependence, Noetherian and Artinian rings and modules, Dedekind rings, completions and a moderate
Introduction to Commutative Algebra
Introduction_to_Commutative_Algebra
was a precursor notion of scheme theory. Let X be a separated integral noetherian scheme, R its function field. If we denote by X ′ {\displaystyle X'} the
Chevalley_scheme
Mathematical concept
of Dedekind-finite rings include commutative rings, finite rings, and Noetherian rings. A ring R {\displaystyle R} is Dedekind-finite if any of the following
Dedekind-finite_ring
Scheme theory concept
noetherian, then Y is locally integral. If f is faithfully flat and quasi-compact, and if X is locally noetherian, then Y is also locally noetherian.
Flat_morphism
Algebraic structure in ring theory
In particular, if S {\displaystyle S} is a Noetherian ring, then R {\displaystyle R} is also Noetherian. The second-last condition can be stated in the
Flat_module
polynomials over a field is Noetherian, or more generally that any finitely generated algebra over a Noetherian ring is Noetherian. 6. The Hilbert–Burch theorem
Glossary of commutative algebra
Glossary_of_commutative_algebra
Concept in commutative algebra
topology is called separated. By Krull's intersection theorem, if R is a Noetherian ring which is an integral domain or a local ring, it holds that ⋂ n >
I-adic_topology
Algebraic structure
can be written in the form ax + by, etc. Principal ideal domains are Noetherian, they are integrally closed, they are unique factorization domains and
Principal_ideal_domain
Mathematical term in group theory
is Artinian but not Noetherian. It can thus be used as a counterexample against the idea that every Artinian module is Noetherian (whereas every Artinian
Prüfer_group
American mathematician
studies linkage theory, Rees algebras, homological theory of modules over Noetherian rings, local cohomology, symbolic powers of ideals, Cohen-Macaulay rings
Craig_Huneke
American mathematician (1923–2015)
modules, especially for his work with injective modules over commutative Noetherian rings, and his introduction of Matlis duality. Matlis earned his Ph.D
Eben_Matlis
Topology on prime ideals and algebraic varieties
theorem and the fact that Noetherian rings are closed under quotients, every affine or projective coordinate ring is Noetherian. As a consequence, affine
Zariski_topology
Algebraic ring classification
general as a quasi-semi-local ring, using semi-local ring to refer to a Noetherian ring with finitely many maximal ideals. A semi-local ring is thus more
Semi-local_ring
Algebraic geometry scheme
In algebraic geometry, a Gorenstein scheme is a locally Noetherian scheme whose local rings are all Gorenstein. The canonical line bundle is defined for
Gorenstein_scheme
Category with direct sums and certain types of kernels and cokernels
a category of modules (Mitchell's embedding theorem). If R is a left-noetherian ring, then the category of finitely generated left modules over R is abelian
Abelian_category
Algebraic structure with addition and multiplication
that a left Artinian ring is left Noetherian (the Hopkins–Levitzki theorem). The integers, however, form a Noetherian ring which is not Artinian. For commutative
Ring_(mathematics)
Type of integral domain
Zariski ring, such as a Noetherian local ring, is a UFD, then the ring is a UFD. The converse of this is not true: there are Noetherian local rings that are
Unique_factorization_domain
Study of dimension in algebraic geometry
very little is known for non-Noetherian rings. (Kaplansky's Commutative rings gives a good account of the non-Noetherian case.) Throughout the article
Dimension_theory_(algebra)
Levitzky's theorem, named after Jacob Levitzki, states that in a right Noetherian ring, every nil one-sided ideal is necessarily nilpotent. Levitzky's theorem
Levitzky's_theorem
NOETHERIAN
NOETHERIAN
NOETHERIAN
NOETHERIAN
Male
English
Roman Latin name derived from the word festus, FESTUS means "festival." In the bible, this is the name of the successor of Felix, the procurator of Judea who refused to bow to the pressure of the Jews who wanted him to condemn St. Paul to death for preaching. He is also known by the name Porcius.
Male
Vietnamese
 Vietnamese name DAI means "great." Compare with other forms of Dai.
Girl/Female
Tamil
Vitality
Boy/Male
Hindu, Indian, Punjabi, Sikh
Bravely Upholding Righteousness; Brave in Doing Ones Duty
Boy/Male
Indian, Punjabi, Russian, Sikh
Blessed; Power; Peace; Calm
Girl/Female
Italian
Lame.
Male
English
Anglicized form of Hebrew Shephatyah, SHEPHATIAH means "whom Jehovah defends." In the bible, this is the name of many characters, including a son of David.Â
Boy/Male
African, Arabic, Czech, Czechoslovakian, German, Hindu, Indian, Jamaican, Marathi, Muslim, Polish, Sindhi, Swahili
Perfect; Another Name for God; Whole; Immaculate; Complete; From a Roman Family Name; King of the World; The Largest King
Girl/Female
Indian
The beautiful woman, Beautiful jewel
Girl/Female
Indian
A narrator of Hadith
NOETHERIAN
NOETHERIAN
NOETHERIAN
NOETHERIAN
NOETHERIAN