Abstract
Abstract
The group
S
L
(
2
,
C
)
of all complex 2 × 2 matrices with determinant one is closely related to the group
L
+
↑
of real 4 × 4 matrices representing the restricted Lorentz transformations. This relation, sometimes called the spinor map, is of fundamental importance in relativistic quantum mechanics and has applications also in general relativity. In this paper we show how the spinor map may be expressed in terms of pure matrix algebra by including the Kronecker product between matrices in the formalism. The so-obtained formula for the spinor map may be manipulated by matrix algebra and used in the study of Lorentz transformations.
Subject
General Physics and Astronomy