User:Maschen/Dirac–Fierz–Pauli equations

Dirac in 1936, and Fierz and Pauli in 1939, built relativistic wave equations from irreducible spinors A and B, symmetric in all indices, for a massive particle of spin n + ½ for integer n (see Van der Waerden notation for the meaning of the dotted indices):

${\displaystyle p_{\gamma {\dot {\alpha }}}A_{\epsilon _{1}\epsilon _{2}\cdots \epsilon _{n}}^{{\dot {\alpha }}{\dot {\beta }}_{1}{\dot {\beta }}_{2}\cdots {\dot {\beta }}_{n}}=mcB_{\gamma \epsilon _{1}\epsilon _{2}\cdots \epsilon _{n}}^{{\dot {\beta }}_{1}{\dot {\beta }}_{2}\cdots {\dot {\beta }}_{n}}}$

${\displaystyle p^{\gamma {\dot {\alpha }}}B_{\gamma \epsilon _{1}\epsilon _{2}\cdots \epsilon _{n}}^{{\dot {\beta }}_{1}{\dot {\beta }}_{2}\cdots {\dot {\beta }}_{n}}=mcA_{\epsilon _{1}\epsilon _{2}\cdots \epsilon _{n}}^{{\dot {\alpha }}{\dot {\beta }}_{1}{\dot {\beta }}_{2}\cdots {\dot {\beta }}_{n}}}$

where p is the momentum as a covariant spinor operator. For n = 0, the equations reduce to the coupled Dirac equations and A and B together transform as the original Dirac spinor. Eliminating either A or B shows that A and B each fulfill the Klein–Gordon equation^[1]

${\displaystyle -\hbar ^{2}{\frac {\partial ^{2}A}{\partial t^{2}}}+(\hbar c)^{2}\nabla ^{2}A=(mc^{2})^{2}A\,,}$

${\displaystyle -\hbar ^{2}{\frac {\partial ^{2}B}{\partial t^{2}}}+(\hbar c)^{2}\nabla ^{2}B=(mc^{2})^{2}B\,,}$

provided the conditions

${\displaystyle p_{\dot {\alpha }}^{\gamma }A_{\gamma \epsilon _{1}\epsilon _{2}\cdots \epsilon _{n}}^{{\dot {\alpha }}_{1}{\dot {\beta }}_{2}\cdots {\dot {\beta }}_{n}}=0\,,\quad p_{\dot {\alpha }}^{\gamma }B_{\gamma \epsilon _{1}\epsilon _{2}\cdots \epsilon _{n}}^{{\dot {\alpha }}_{1}{\dot {\beta }}_{2}\cdots {\dot {\beta }}_{n}}=0}$

hold.

See also

• Bargmann–Wigner equations
• Joos–Weinberg equation

References

1. S. Esposito (2011). "Searching for an equation: Dirac, Majorana and the others". arXiv:1110.6878.