Saturated family

In mathematics, specifically in functional analysis, a family ${\mathcal {G}}$ of subsets a topological vector space (TVS) $X$ is said to be saturated if ${\mathcal {G}}$ contains a non-empty subset of $X$ and if for every $G\in {\mathcal {G}},$ the following conditions all hold:

${\mathcal {G}}$ contains every subset of $G$ ;
the union of any finite collection of elements of ${\mathcal {G}}$ is an element of ${\mathcal {G}}$ ;
for every scalar $a,$ ${\mathcal {G}}$ contains $aG$ ;
the closed convex balanced hull of $G$ belongs to ${\mathcal {G}}.$ ^[1]

Definitions[edit]

If ${\mathcal {S}}$ is any collection of subsets of $X$ then the smallest saturated family containing ${\mathcal {S}}$ is called the saturated hull of ${\mathcal {S}}.$ ^[1]

The family ${\mathcal {G}}$ is said to cover $X$ if the union $\bigcup _{G\in {\mathcal {G}}}G$ is equal to $X$ ; it is total if the linear span of this set is a dense subset of $X.$ ^[1]

Examples[edit]

The intersection of an arbitrary family of saturated families is a saturated family.^[1] Since the power set of $X$ is saturated, any given non-empty family ${\mathcal {G}}$ of subsets of $X$ containing at least one non-empty set, the saturated hull of ${\mathcal {G}}$ is well-defined.^[2] Note that a saturated family of subsets of $X$ that covers $X$ is a bornology on $X.$

The set of all bounded subsets of a topological vector space is a saturated family.

References[edit]

^ ^a ^b ^c ^d Schaefer & Wolff 1999, pp. 79–82.
^ Schaefer & Wolff 1999, pp. 79–88.

Narici, Lawrence; Beckenstein, Edward (2011). Topological Vector Spaces. Pure and applied mathematics (Second ed.). Boca Raton, FL: CRC Press. ISBN 978-1584888666. OCLC 144216834.
Schaefer, Helmut H.; Wolff, Manfred P. (1999). Topological Vector Spaces. GTM. Vol. 8 (Second ed.). New York, NY: Springer New York Imprint Springer. ISBN 978-1-4612-7155-0. OCLC 840278135.
Trèves, François (2006) [1967]. Topological Vector Spaces, Distributions and Kernels. Mineola, N.Y.: Dover Publications. ISBN 978-0-486-45352-1. OCLC 853623322.

[FOOTNOTESchaeferWolff199979–82-1] Schaefer & Wolff 1999, pp. 79–82.

[FOOTNOTESchaeferWolff199979–88-2] Schaefer & Wolff 1999, pp. 79–88.

[1]

[2]

v t e Duality and spaces of linear maps
Basic concepts	Dual space Dual system Dual topology Duality Operator topologies Polar set Polar topology Topologies on spaces of linear maps
Topologies	Norm topology Dual norm Ultraweak/Weak-* Weak polar operator in Hilbert spaces Mackey Strong dual polar topology operator Ultrastrong
Main results	Banach–Alaoglu Mackey–Arens
Maps	Transpose of a linear map
Subsets	Saturated family Total set
Other concepts	Biorthogonal system

v t e Topological vector spaces (TVSs)
Basic concepts	Banach space Completeness Continuous linear operator Linear functional Fréchet space Linear map Locally convex space Metrizability Operator topologies Topological vector space Vector space
Main results	Anderson–Kadec Banach–Alaoglu Closed graph theorem F. Riesz's Hahn–Banach (hyperplane separation Vector-valued Hahn–Banach) Open mapping (Banach–Schauder) Bounded inverse Uniform boundedness (Banach–Steinhaus)
Maps	Bilinear operator form Linear map Almost open Bounded Continuous Closed Compact Densely defined Discontinuous Topological homomorphism Functional Linear Bilinear Sesquilinear Norm Seminorm Sublinear function Transpose
Types of sets	Absolutely convex/disk Absorbing/Radial Affine Balanced/Circled Banach disks Bounding points Bounded Complemented subspace Convex Convex cone (subset) Linear cone (subset) Extreme point Pre-compact/Totally bounded Prevalent/Shy Radial Radially convex/Star-shaped Symmetric
Set operations	Affine hull (Relative) Algebraic interior (core) Convex hull Linear span Minkowski addition Polar (Quasi) Relative interior
Types of TVSs	Asplund B-complete/Ptak Banach (Countably) Barrelled BK-space (Ultra-) Bornological Brauner Complete Convenient (DF)-space Distinguished F-space FK-AK space FK-space Fréchet tame Fréchet Grothendieck Hilbert Infrabarreled Interpolation space K-space LB-space LF-space Locally convex space Mackey (Pseudo)Metrizable Montel Quasibarrelled Quasi-complete Quasinormed (Polynomially Semi-) Reflexive Riesz Schwartz Semi-complete Smith Stereotype (B Strictly Uniformly) convex (Quasi-) Ultrabarrelled Uniformly smooth Webbed With the approximation property
Category

v t e Boundedness and bornology
Basic concepts	Barrelled space Bounded set Bornological space (Vector) Bornology
Operators	(Un)Bounded operator Uniform boundedness principle
Subsets	Barrelled set Bornivorous set Saturated family
Related spaces	(Countably) Barrelled space (Countably) Quasi-barrelled space Infrabarrelled space (Quasi-) Ultrabarrelled space Ultrabornological space

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