Definition:Riemann Sphere

Definition
Let $f_1: \C \to \R^2$ be defined as:
 * $\forall z \in \C: \map {f_1} z = \tuple {\map \Re z, \map \Im z}$

Let $f_2: \R^2 \to \R^3$ be the inclusion map:
 * $\forall \tuple {a, b} \in \C^2: \map {f_2} {a, b} = \tuple {a, b, 0}$

Let $f = f_2 \circ f_1$.

Let $F: \C \to \map \PP {\R^3}$ be defined as the mapping which takes $z$ to the closed line interval from $\tuple {0, 0, 1}$ to $\map f z$ for all $z \in \C$.

Let $G = \set {x, y, z: x^2 + y^2 + z^2 = 1}$.

Then the Riemann map $R: \C \to \mathbb S^2$ is defined as:
 * $\map R x = \map F z \cap G$

The set $R \sqbrk \C \cup \set {\tuple {0, 0, 1} } $ is called the Riemann sphere, with the understanding that $\map f \infty = \tuple {0, 0, 1}$.

Also see

 * Definition:Stereographic Projection