Clifford module

In mathematics, a Clifford module is a representation of a Clifford algebra. In general a Clifford algebra C is a central simple algebra over some field extension L of the field K over which the quadratic form Q defining C is defined.

The abstract theory of Clifford modules was founded by a paper of M. F. Atiyah, R. Bott and Arnold S. Shapiro. A fundamental result on Clifford modules is that the Morita equivalence class of a Clifford algebra (the equivalence class of the category of Clifford modules over it) depends only on the signature Template:Nowrap. This is an algebraic form of Bott periodicity.

We will need to study anticommuting matrices (Template:Nowrap) because in Clifford algebras orthogonal vectors anticommute

${\displaystyle A\cdot B=\frac{1}{2}(AB+BA)=0.}$

For the real Clifford algebra ${\displaystyle {ℝ}_{p,q}}$, we need Template:Nowrap mutually anticommuting matrices, of which p have +1 as square and q have −1 as square.

${\displaystyle \begin{array}{ccccc}{\gamma }_a^2& =& +1& \text{if}& 1\le a\le p\\ {\gamma }_a^2& =& -1& \text{if}& p+1\le a\le p+q\\ {\gamma }_a{\gamma }_b& =& -{\gamma }_b{\gamma }_a& \text{if}& a\ne b.\end{array}}$

Such a basis of gamma matrices is not unique. One can always obtain another set of gamma matrices satisfying the same Clifford algebra by means of a similarity transformation.

${\displaystyle {\gamma }_{a^{\prime }}=S{\gamma }_a{S}^{-1},}$

where S is a non-singular matrix. The sets γ_a′ and γ_a belong to the same equivalence class.

Developed by Ettore Majorana, this Clifford module enables the construction of a Dirac-like equation without complex numbers, and its elements are called Majorana spinors.

The four basis vectors are the three Pauli matrices and a fourth antihermitian matrix. The signature is (+++−). For the signatures (+−−−) and (−−−+) often used in physics, 4×4 complex matrices or 8×8 real matrices are needed.

• Weyl–Brauer matrices
• Higher-dimensional gamma matrices
• Clifford module bundle

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