BICEP2 & Penrose: Inflation's Impact on Proving Initial Conditions

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In summary, there is currently no conclusive proof of inflation and the best we can do is either falsify or find corroborating evidence for the theory. The issue of improbable initial conditions has been a long-standing problem in the study of inflation and has led to the development of alternative theories such as CCC, string gas cosmology, and cyclic models. However, these theories are still considered fringe and are not widely accepted. Additionally, there is evidence for inflation with or without the recent results from BICEP2, but it is not strong enough to completely dismiss other theories. Even if inflation is confirmed, there may still be room for alternative explanations for certain phenomena.
  • #1
twistor
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If inflation is proven by BICEP 2, then what happens with Penrose's proof that infaltion assumes unprobable initial conditions?
 
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  • #2
BICEP2 has not proven inflation -- nothing will ever prove inflation. In science the best we can do is 1) falsify a theory or 2) find corroborating evidence for a theory. But, to your point -- supposing that substantial evidence is found in favor of inflation, this means that either the initial conditions/configuration were simply improbable, or that we don't understand the physics underlying the initial conditions well enough. Such arguments regarding initial conditions extend way beyond Penrose, and have been a bone in inflation's closet of skeletons for many years.

As a somewhat related aside that bothers me, scientists like Steinhardt who wish to discredit an entire theory because the initial conditions are difficult to actualize I think are throwing the baby out with the bathwater -- it's OK not to understand precisely how inflation got started. Currently, inflation does not constitute a well-structured theory as much as a broad paradigm describing early universe physics. This is an important difference.
 
  • #3
First off Bicep 2 results look like they are increasingly ocming into doubt:
https://www.physicsforums.com/showthread.php?t=753482
even if the results do hold up there still needs to be further investigation to see if it confirms inflation or not. As Bapowell said nothing in science is proved (but confirming evidence can be found).
There have been claims that inflaiton needs very unlikley iniitial conditions, Penrose is someone that says that. but there are also claims to solve this problem, I am not sure proof is again an appropriate word. see here for example:
arxiv.org/abs/0708.3288‎
There is alreayd evidence for inflaiton with or without BICEP 2 but I think it is not so strong that we can't entertain alternatives to inflation. If the evidence does get to that point then we will have to accept it and try learn more about what happened before inflation .
 
  • #4
Suppose that inflation in any form is not correct. Then, what things inflation explains could be explained by other theories, such as CCC?
 
  • #5
String gas cosmology, although kind of odd, purports to explain the density perturbation spectrum and solves the horizon problem. Ekpyrosis and other cyclic models can generate perturbations as well during a prior contracting phase (some of these models, like ekpyrosis, assume away some of the traditional problems of big bang cosmology, like flatness). There are some approaches based on loop quantum cosmology that purport to resolve many of the issues that inflation addresses.
 
  • #6
Is penrose interpretation of BICEP2 valid?
And...
if Conformal Cyclic Cosmology is wrong, then what happens with the experimental data (the concentric circles on CMB)?
 
  • #7
twistor said:
Is penrose interpretation of BICEP2 valid?
And...
if Conformal Cyclic Cosmology is wrong, then what happens with the experimental data (the concentric circles on CMB)?
The concentric circles discovered by Penrose have not been corroborated by actual CMB experts that actually understand how to do that kind of analysis. Penrose, despite his genius, does not. CCC is borderline fringe at this point.
 
  • #8
bapowell said:
The concentric circles discovered by Penrose have not been corroborated by actual CMB experts that actually understand how to do that kind of analysis. Penrose, despite his genius, does not. CCC is borderline fringe at this point.

are you taking
http://arxiv.org/pdf/1302.5162.pdf
into account?
 
  • #9
Yes. Penrose and Gurzadyan don't know how to do CMB analysis.
 
  • #10
well, but could you name a cosmological theory outside of...
--> CCC
--> Inflation
--> MOND, MOG, Variable speed of light, LQC, etc
--> Cyclic Branes
?
 
  • #11
For what its worth I was at a conference in Oxford to discuss CCC. The presentation by Gurzadyan was not well recived as Bapowell has pointed out. However another study by a Polish team did seem to be go down better with the critics. I'm not saying they accepted it either but here is the link in case you want to read it:
http://arxiv.org/pdf/1307.5737.pdf

I should add I don't think LQC is not necessarily an alternative to inflation. They generally include inflation in their models. Some papers even try and predict how many efolds as a result of the bounce ( but I think they still have to have an inflaton field put in):
http://arxiv.org/abs/1301.1264
 
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  • #12
twistor said:
well, but could you name a cosmological theory outside of...
--> CCC
--> Inflation
--> MOND, MOG, Variable speed of light, LQC, etc
--> Cyclic Branes
?

Heres a new one proposed by Turok and Stenihardt ( of Ekpyrotic fame):
http://arxiv.org/abs/1307.8106
string gas cosmology is another, pre big bang string duality is another. There are probably many more. MOnd is more trying to explain dark matter without dark matter , its nto as far as I know a theory of the very early universe.
 
  • #13
well some models of MOND don't use dark matter

some MOND models however have dipole dark matter.
 

1. What is BICEP2 and how does it relate to inflation?

BICEP2 (Background Imaging of Cosmic Extragalactic Polarization) is a telescope located at the South Pole, designed to measure the polarization of the cosmic microwave background (CMB) radiation. In 2014, BICEP2 announced the detection of a specific pattern in the CMB that was interpreted as evidence of cosmic inflation, a theory that explains the rapid expansion of the universe in its early stages.

2. What is the significance of Penrose's contribution to the BICEP2 findings?

Sir Roger Penrose, a renowned mathematician and physicist, proposed a theory in the 1980s that predicted the existence of gravitational waves left over from the inflationary period. The BICEP2 findings were seen as potential evidence for Penrose's theory, providing further support for the concept of inflation.

3. How does BICEP2 and Penrose's work impact our understanding of the initial conditions of the universe?

If the BICEP2 findings were confirmed to be caused by gravitational waves from inflation, it would provide important insights into the initial conditions of the universe. It would support the idea that the universe underwent a rapid phase of expansion in its earliest moments and provide evidence for the existence of gravitational waves, which are predicted by Einstein's theory of general relativity.

4. What challenges and criticisms have been raised regarding the BICEP2 and Penrose findings?

The BICEP2 findings were initially met with a lot of excitement, but later studies and analyses raised doubts about their interpretation. Critics have pointed out that the detected pattern in the CMB could also be caused by other sources, such as interstellar dust, and that more evidence is needed to confirm the existence of gravitational waves from inflation.

5. What are the next steps in further understanding the impact of inflation on the initial conditions of the universe?

To confirm the BICEP2 findings, further observations and analyses are needed. The European Space Agency's Planck satellite and the upcoming James Webb Space Telescope are expected to provide more data and insight into the CMB and inflation. Additionally, ongoing research and collaboration between scientists in different fields will help to further our understanding of the initial conditions of the universe.

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