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Space which has no holes through it From Wikipedia, the free encyclopedia
In topology, a topological space is called simply connected (or 1-connected, or 1-simply connected[1]) if it is path-connected and every path between two points can be continuously transformed into any other such path while preserving the two endpoints in question. Intuitively, this corresponds to a space that has no disjoint parts and no holes that go completely through it, because two paths going around different sides of such a hole cannot be continuously transformed into each other. The fundamental group of a topological space is an indicator of the failure for the space to be simply connected: a path-connected topological space is simply connected if and only if its fundamental group is trivial.
A topological space is called simply connected if it is path-connected and any loop in defined by can be contracted to a point: there exists a continuous map such that restricted to is Here, and denotes the unit circle and closed unit disk in the Euclidean plane respectively.
An equivalent formulation is this: is simply connected if and only if it is path-connected, and whenever and are two paths (that is, continuous maps) with the same start and endpoint ( and ), then can be continuously deformed into while keeping both endpoints fixed. Explicitly, there exists a homotopy such that and
A topological space is simply connected if and only if is path-connected and the fundamental group of at each point is trivial, i.e. consists only of the identity element. Similarly, is simply connected if and only if for all points the set of morphisms in the fundamental groupoid of has only one element.[2]
In complex analysis: an open subset is simply connected if and only if both and its complement in the Riemann sphere are connected. The set of complex numbers with imaginary part strictly greater than zero and less than one furnishes an example of an unbounded, connected, open subset of the plane whose complement is not connected. It is nevertheless simply connected. A relaxation of the requirement that be connected leads to an exploration of open subsets of the plane with connected extended complement. For example, a (not necessarily connected) open set has a connected extended complement exactly when each of its connected components is simply connected.
Informally, an object in our space is simply connected if it consists of one piece and does not have any "holes" that pass all the way through it. For example, neither a doughnut nor a coffee cup (with a handle) is simply connected, but a hollow rubber ball is simply connected. In two dimensions, a circle is not simply connected, but a disk and a line are. Spaces that are connected but not simply connected are called non-simply connected or multiply connected.
The definition rules out only handle-shaped holes. A sphere (or, equivalently, a rubber ball with a hollow center) is simply connected, because any loop on the surface of a sphere can contract to a point even though it has a "hole" in the hollow center. The stronger condition, that the object has no holes of any dimension, is called contractibility.
A surface (two-dimensional topological manifold) is simply connected if and only if it is connected and its genus (the number of handles of the surface) is 0.
A universal cover of any (suitable) space is a simply connected space which maps to via a covering map.
If and are homotopy equivalent and is simply connected, then so is
The image of a simply connected set under a continuous function need not be simply connected. Take for example the complex plane under the exponential map: the image is which is not simply connected.
The notion of simple connectedness is important in complex analysis because of the following facts:
The notion of simple connectedness is also a crucial condition in the Poincaré conjecture.
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