Geometry of spin 1/2 particles
Keywords:
Bra-ket formalism, geometric algebra, spacetime algebra, Schrödinger-Pauli equation, Dirac equation, Dirac-Hestenes equation, spinor, spinor operatorAbstract
The geometric algebras of space and spacetime are derived by sucessively extending the real number system to include new mutually anticommuting square roots of $\pm 1$. The quantum mechanics of spin 1/2 particles are then expressed in these geometric algebras. Classical 2 and 4 component spinors are represented by geometric numbers which have parity, providing new insight into the familiar bra-ket formalism of Dirac. The classical Dirac Equation is shown to be equivalent to the Dirac-Hestenes equation, so long as the issue of parity is not taken into consideration, the latter quantity being constructed in such a way that it is parity invarient.Downloads
Published
2015-01-01
How to Cite
[1]
G. Sobcz and k., “Geometry of spin 1/2 particles”, Rev. Mex. Fís., vol. 61, no. 3 May-Jun, pp. 211–0, Jan. 2015.
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Authors retain copyright and grant the Revista Mexicana de Física right of first publication with the work simultaneously licensed under a CC BY-NC-ND 4.0 that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
