hidden sector dark matter
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- Posts: 16
- Joined: July 07 2014
- Affiliation: Raman Research Institute
hidden sector dark matter
Hi Antony,
we are working with some dark matter models where the dark matter may be a sterile neutrino which is coupled through some secret interaction with a hidden sector, which has a different temperature.
In this case, the distribution function of the sterile neutrino will have a different temperature.
In order to do that , do I have to modify the distribution function of the massive neutrino, or it is internally taken care of when you provide
"share_delta_neff =F" and provide the mass eigenstate and degeneracies in the params.ini?
Please let me know early.
Thanks in advance,
Abir
we are working with some dark matter models where the dark matter may be a sterile neutrino which is coupled through some secret interaction with a hidden sector, which has a different temperature.
In this case, the distribution function of the sterile neutrino will have a different temperature.
In order to do that , do I have to modify the distribution function of the massive neutrino, or it is internally taken care of when you provide
"share_delta_neff =F" and provide the mass eigenstate and degeneracies in the params.ini?
Please let me know early.
Thanks in advance,
Abir
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- Posts: 1944
- Joined: September 23 2004
- Affiliation: University of Sussex
- Contact:
Re: hidden sector dark matter
It can handle neutrinos with different temperatures via the degeneracies (but assumes they are Fermi-Dirac distributions).
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- Posts: 16
- Joined: July 07 2014
- Affiliation: Raman Research Institute
hidden sector dark matter
Hi,
Thanks for your reply Antony.
But, if we do not change the distribution function itself, which is FD but with a different temperature, how can the changes in pressure and anisotropic stress are taken into account?
As fas as I understood the code, it uses the degeneracies to calculate some effective "nu_masses" and use it to get the appropriate [tex]\epsilon[/tex] = [tex]\sqrt{q^2+m^2a^2}[/tex]. But the dynamics of this dark matter is not taken care of, unless the distribution function is written with different temperature.
It will be really helpful if you kindly clear this confusion.
Regards,
Abir
Thanks for your reply Antony.
But, if we do not change the distribution function itself, which is FD but with a different temperature, how can the changes in pressure and anisotropic stress are taken into account?
As fas as I understood the code, it uses the degeneracies to calculate some effective "nu_masses" and use it to get the appropriate [tex]\epsilon[/tex] = [tex]\sqrt{q^2+m^2a^2}[/tex]. But the dynamics of this dark matter is not taken care of, unless the distribution function is written with different temperature.
It will be really helpful if you kindly clear this confusion.
Regards,
Abir
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- Posts: 1944
- Joined: September 23 2004
- Affiliation: University of Sussex
- Contact:
Re: hidden sector dark matter
Things only depends on m/T as long as the distribution is Fermi-Dirac. See the CAMB notes for more discussion.
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- Posts: 16
- Joined: July 07 2014
- Affiliation: Raman Research Institute
hidden sector dark matter
Hi Antony,
Thanks a lot for your reply. The dynamics of the code is clear now.
Does the same apply for CMBFAST too?
Abir
Thanks a lot for your reply. The dynamics of the code is clear now.
Does the same apply for CMBFAST too?
Abir