Using complex geometry, Edmond Laguerre first suggested the existence of two isotropic lines through the point (α, β) that depend on the imaginary unit i:[1] Laguerre then interpreted these lines as geodesics: In the complex projective plane, points are represented by homogeneous coordinates
An isotropic line in the complex projective plane satisfies the equation:[2] In terms of the affine subspace x3 = 1, an isotropic line through the origin is In projective geometry, the isotropic lines are the ones passing through the circular points at infinity.
In the real orthogonal geometry of Emil Artin, isotropic lines occur in pairs: Isotropic lines have been used in cosmological writing to carry light.
For example, in a mathematical encyclopedia, light consists of photons: "The worldline of a zero rest mass (such as a non-quantum model of a photon and other elementary particles of mass zero) is an isotropic line.
"[4] For isotropic lines through the origin, a particular point is a null vector, and the collection of all such isotropic lines forms the light cone at the origin.
Élie Cartan expanded the concept of isotropic lines to multivectors in his book on spinors in three dimensions.