Weinberg's dark matter idea re fractional cosmic neutrinos

In summary, Weinberg's idea that the Goldstone mass might be masquerading as fractional cosmic neutrinos is supported by data. However, the idea has several shortcomings and may not be viable as a full explanation of Neff.
  • #1
marcus
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Weinberg's dark matter idea re "fractional cosmic neutrinos"

http://arxiv.org/pdf/1305.1971v1.pdf
http://arxiv.org/abs/1305.1971
Goldstone Bosons as Fractional Cosmic Neutrinos
Steven Weinberg
(Submitted on 8 May 2013)
It is suggested that Goldstone bosons may be masquerading as fractional cosmic neutrinos, contributing about 0.39 to what is reported as the effective number of neutrino types in the era before recombination. The broken symmetry associated with these Goldstone bosons is further speculated to be the conservation of the particles of dark matter.
9 pages
 
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  • #3
:rofl:
But how do you like the paper? I posted notice of it particularly because I was interested to learn your reaction to the idea, and those of a few others.
 
  • #4
I like his mode of reasoning, leaping from one reasonable assumption to the next and using approximate order of magnitude estimates to narrow the parameter space. And, the case for Neff being associated with a fractional neutrino species is favored by the data.

On the other hand, it ends with a fizzle instead of a bang, and it is hard to know if there is a way to elaborate the idea further to see if it really makes sense.
 
  • #5
marcus said:
But how do you like the paper?
The idea goes on the list of possibilities. Many models now suppose that dark matter has dark interactions of its own, new forces which only it feels, and some of them might in future incorporate Weinberg's idea as an explanation of Neff, depending on how well it fits.

That the goldstone mass has to have just the right order of magnitude (equation 9) for this to work, might be regarded as a point against the idea. This is also a characteristic shortcoming of all the "minimal" BSM theories - they freely employ finetuning of parameters, in order to squeeze all the required new physics into a minimal extension of the SM. Still, that exercise tends to be instructive, and turns up ideas which could be used in a larger, more relaxed model.
 
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1. What is Weinberg's dark matter idea?

Weinberg's dark matter idea is a theory proposed by physicist Steven Weinberg to explain the existence of dark matter in the universe. According to this idea, a small fraction of neutrinos in the early universe may have acquired a small mass through interactions with the Higgs boson, making them a possible candidate for dark matter.

2. What is dark matter?

Dark matter is a hypothetical form of matter that does not interact with light or other forms of electromagnetic radiation, making it invisible to traditional telescopes. It is believed to make up approximately 85% of the total matter in the universe and is necessary to explain the observed gravitational effects on galaxies and other large-scale structures.

3. How does Weinberg's dark matter idea explain the presence of dark matter?

Weinberg's dark matter idea proposes that a small fraction of neutrinos in the early universe interacted with the Higgs boson, giving them a small mass. This mass could then account for the missing mass and gravitational effects attributed to dark matter. However, this idea is still a hypothesis and has not been proven.

4. What is the evidence for Weinberg's dark matter idea?

The evidence for Weinberg's dark matter idea is currently limited to theoretical calculations and simulations. Scientists have not yet been able to directly observe or detect these fractional cosmic neutrinos, making it difficult to confirm this idea. More research and observations are needed to provide stronger evidence for this theory.

5. How does Weinberg's dark matter idea relate to other theories of dark matter?

Weinberg's dark matter idea is just one of many theories proposed to explain the existence of dark matter. Other theories include the existence of weakly interacting massive particles (WIMPs) and modifications to the theory of gravity. Further research and observations are needed to determine which theory, if any, is the most accurate explanation for dark matter.

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