Q and U parameters for polarization

AI Thread Summary
The Cosmic Microwave Background (CMB) is indeed polarized, but the polarization signal is weaker than the temperature signal due to the physics of photon emission and scattering. Most CMB photons are randomized during their journey, which limits the number of polarized photons. The relationship between Stokes parameters, specifically $$I^2 = Q^2 + U^2$$, indicates that the intensity is greater than the polarization components. Additionally, the average values of the Q and U parameters are zero, reflecting the overall randomization of the polarization. This discussion highlights the complex interplay between scattering processes and the resulting polarization in the CMB.
Anne-Sylvie
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Hello everyone :)

The CMB is polarized. I read in Dodelson's book "Modern Cosmology" that we can expect a signal of polarization weaker than the signal of temperature.
Is it only because the Stokes parameters obey $$I^2 = Q^2 + U^2 $$ (I drop V because Thomson scatering can't create V polarization) ? Or is there any other (more physical) reason ?

And I heard too that $$\langle Q \rangle = \langle U \rangle = 0$$ but I can't figure out why it is the case.

Thanks for your answers. :)
 
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Anne-Sylvie said:
Hello everyone :)

The CMB is polarized. I read in Dodelson's book "Modern Cosmology" that we can expect a signal of polarization weaker than the signal of temperature.
Is it only because the Stokes parameters obey $$I^2 = Q^2 + U^2 $$ (I drop V because Thomson scatering can't create V polarization) ? Or is there any other (more physical) reason ?

And I heard too that $$\langle Q \rangle = \langle U \rangle = 0$$ but I can't figure out why it is the case.

Thanks for your answers. :)
It's because only a small fraction of the CMB photons are polarized.
 
Chalnoth said:
It's because only a small fraction of the CMB photons are polarized.

Maybe I wasn't clear enough with my question.
I am wondering why are they so few polarized photons. :)
 
Anne-Sylvie said:
Maybe I wasn't clear enough with my question.
I am wondering why are they so few polarized photons. :)
Right, it's because of the physics of how they were emitted. Most of the photons are randomized by the random scatter that occurred before the photons left the CMB. But those random motions were correlated, giving rise to some small amount of polarization.
 

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