Hi Antony,
I have a very simple question, but I want to be sure. You define dgpi in /camb/equations.f90 as
[tex]\text{dgpi} = \sum 8 \pi G a^2 \rho_i \Pi_i[/tex]
So, in Newtonian gauge, I should write the Einstein equation as
[tex]k^2 (\phi - \psi) = 12 \pi G a^2 \sum (\rho + P )\sigma = \frac{3}{2} \text{dgpi}[/tex].
Am I wrong?
Thanks,
Alex
Definition of dgpi (/camb/equations.f90)
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Re: Definition of dgpi (/camb/equations.f90)
Not sure about the factor of 3/2, e.g. see the second equation on p12 of the CAMB notes.
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Definition of dgpi (/camb/equations.f90)
Great, thanks!
Alex
Alex