Zariski topology
In mathematics, the Zariski topology is a structure basic to algebraic geometry, especially since 1950.
In this topology, named after Oscar Zariski, the closed sets are the sets consisting of the mutual zeroes of a set of polynomials.
This definition indicates the kind of space that can be given a Zariski topology: for example, we define the Zariski topology on an n-dimensional vector space Fn over a field F, using the definition above. That this definition yields a true topology is easily verified.
Using the Noetherian property of the ring of polynomials over F, one sees that any closed set is the set of zeroes of a finite set of equations.
The Zariski topology given to some finite-dimensional vector space doesn't depend on the specific basis chosen; for that reason it is an intrinsic structure. It is usually regarded as belonging to the underlying affine space, since it is also invariant by translations.
One can generalise the definition of Zariski topology to projective spaces, and so to any algebraic variety as subsets of these. The general case of the Zariski topology is based on the affine scheme and spectrum of a ring constructions, as local models.
Referenced By
Accessible space | Accessible topology | Affine scheme | Algebraic Geometry | Algebraic equation | Background and genesis of topos theory | Cofinite | Cofinite topology | Completely T4 space | Completely normal Hausdorff space | Completely normal regular space | Completely normal space | Correspondence | Diagonalizable | Frechet topology | Fréchet topology | Hausdorff space | Hausdorff topology | Homogeneous space | Introduction to topos theory | List of algebraic geometry topics | List of general topology topics | List of mathematical topics (V-Z) | Locally ringed space | Normal Hausdorff space | Normal regular space | Normal space | Oscar Zariski | Perfectly T4 space | Perfectly normal Hausdorff space | Perfectly normal regular space | Perfectly normal space | Preregular space | Preregular topology | R0 space | R0 topology | R1 space | R1 topology | Scheme (mathematics) | Separated space | Separated topology | Separated uniformity | Spectrum of a ring | Symmetric topology | T1 space | T1 topology | T2 space | T2 topology | T4 space | T5 space | Topological space | Topological subspace | Topology (structure) | Zariski | Zariski-closed relation
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