Physics:Palatini identity

In general relativity and tensor calculus, the Palatini identity is

${\displaystyle \delta R_{\sigma \nu }={\mathrm{\nabla }}_{\rho }\delta {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }-{\mathrm{\nabla }}_{\nu }\delta {\mathrm{\Gamma }}_{\rho \sigma }^{\rho },}$

where ${\displaystyle \delta {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }}$ denotes the variation of Christoffel symbols and ${\displaystyle {\mathrm{\nabla }}_{\rho }}$ indicates covariant differentiation.^[1]

The "same" identity holds for the Lie derivative ${\displaystyle {{ℒ}}_{\xi }{R}_{\sigma \nu }}$. In fact, one has

${\displaystyle {{ℒ}}_{\xi }{R}_{\sigma \nu }={\mathrm{\nabla }}_{\rho }({{ℒ}}_{\xi }{\mathrm{\Gamma }}_{\nu \sigma }^{\rho })-{\mathrm{\nabla }}_{\nu }({{ℒ}}_{\xi }{\mathrm{\Gamma }}_{\rho \sigma }^{\rho }),}$

where ${\displaystyle \xi ={\xi }^{\rho }{\partial }_{\rho }}$ denotes any vector field on the spacetime manifold ${\displaystyle M}$.

The Riemann curvature tensor is defined in terms of the Levi-Civita connection ${\displaystyle {\mathrm{\Gamma }}_{\mu \nu }^{\lambda }}$ as

${\displaystyle {R^{\rho }}_{\sigma \mu \nu }={\partial }_{\mu }{\mathrm{\Gamma }}_{\nu \sigma }^{\rho }-{\partial }_{\nu }{\mathrm{\Gamma }}_{\mu \sigma }^{\rho }+{\mathrm{\Gamma }}_{\mu \lambda }^{\rho }{\mathrm{\Gamma }}_{\nu \sigma }^{\lambda }-{\mathrm{\Gamma }}_{\nu \lambda }^{\rho }{\mathrm{\Gamma }}_{\mu \sigma }^{\lambda }}$.

Its variation is

${\displaystyle \delta {R^{\rho }}_{\sigma \mu \nu }={\partial }_{\mu }\delta {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }-{\partial }_{\nu }\delta {\mathrm{\Gamma }}_{\mu \sigma }^{\rho }+\delta {\mathrm{\Gamma }}_{\mu \lambda }^{\rho }{\mathrm{\Gamma }}_{\nu \sigma }^{\lambda }+{\mathrm{\Gamma }}_{\mu \lambda }^{\rho }\delta {\mathrm{\Gamma }}_{\nu \sigma }^{\lambda }-\delta {\mathrm{\Gamma }}_{\nu \lambda }^{\rho }{\mathrm{\Gamma }}_{\mu \sigma }^{\lambda }-{\mathrm{\Gamma }}_{\nu \lambda }^{\rho }\delta {\mathrm{\Gamma }}_{\mu \sigma }^{\lambda }}$.

While the connection ${\displaystyle {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }}$ is not a tensor, the difference ${\displaystyle \delta {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }}$ between two connections is, so we can take its covariant derivative

${\displaystyle {\mathrm{\nabla }}_{\mu }\delta {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }={\partial }_{\mu }\delta {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }+{\mathrm{\Gamma }}_{\mu \lambda }^{\rho }\delta {\mathrm{\Gamma }}_{\nu \sigma }^{\lambda }-{\mathrm{\Gamma }}_{\mu \nu }^{\lambda }\delta {\mathrm{\Gamma }}_{\lambda \sigma }^{\rho }-{\mathrm{\Gamma }}_{\mu \sigma }^{\lambda }\delta {\mathrm{\Gamma }}_{\nu \lambda }^{\rho }}$.

Solving this equation for ${\displaystyle {\partial }_{\mu }\delta {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }}$ and substituting the result in ${\displaystyle \delta {R^{\rho }}_{\sigma \mu \nu }}$, all the ${\displaystyle \mathrm{\Gamma }\delta \mathrm{\Gamma }}$-like terms cancel, leaving only

${\displaystyle \delta {R^{\rho }}_{\sigma \mu \nu }={\mathrm{\nabla }}_{\mu }\delta {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }-{\mathrm{\nabla }}_{\nu }\delta {\mathrm{\Gamma }}_{\mu \sigma }^{\rho }}$.

Finally, the variation of the Ricci curvature tensor follows by contracting two indices, proving the identity

${\displaystyle \delta R_{\sigma \nu }=\delta {R^{\rho }}_{\sigma \rho \nu }={\mathrm{\nabla }}_{\rho }\delta {\mathrm{\Gamma }}_{\nu \sigma }^{\rho }-{\mathrm{\nabla }}_{\nu }\delta {\mathrm{\Gamma }}_{\rho \sigma }^{\rho }}$.

• Einstein–Hilbert action
• Palatini variation
• Ricci calculus
• Tensor calculus
• Christoffel symbols
• Riemann curvature tensor

• "Deduzione invariantiva delle equazioni gravitazionali dal principio di Hamilton" (in Italian), Rendiconti del Circolo Matematico di Palermo, 1 43: 203–212, 1919, doi:10.1007/BF03014670, https://link.springer.com/article/10.1007/BF03014670  [English translation by R. Hojman and C. Mukku in P. G. Bergmann and V. De Sabbata (eds.) Cosmology and Gravitation, Plenum Press, New York (1980)]
• "On the Palatini method of Variation", Journal of Mathematical Physics 19 (3): 555–557, 1978, doi:10.1063/1.523699, Bibcode: 1978JMP....19..555T, https://aip.scitation.org/doi/10.1063/1.523699 

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