WMAP cold spot and void in the universe

In summary: IllingIn summary, the supervoid found in the constellation Eridanus was discovered by WMAP through a cold spot in the data. The drop in temperature of the CMB radiation does not directly indicate a hole, but rather the alignment of this cold spot and a decrease in the number of radio sources in the same area suggests the presence of a void. This void could have caused the cold spot through the effects of dark energy. The observations are described in a paper titled "Extragalactic Radio Sources and the WMAP Cold Spot." The size of this void is larger than expected in the standard model, adding to the anomalies in the CMB.
  • #1
cmantzioros
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I'm doing a research paper on the supervoid found in the constellation Eridanus and it was discovered by WMAP which recorded a cold spot where the hole is ... I just don't know why a drop in temperature of the CMB radiation indicates a hole... can anyone explain please?
 
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  • #2
cmantzioros said:
I'm doing a research paper on the supervoid found in the constellation Eridanus and it was discovered by WMAP which recorded a cold spot where the hole is ... I just don't know why a drop in temperature of the CMB radiation indicates a hole... can anyone explain please?

The drop in temperature itself does not indicate a hole.

There are two separate observations: firstly a cold spot in the WMAP data, and secondly a drop in the number of radio sources.

These two observations are aligned in the same part of the sky in Eridanus, the drop in radio sources indicates a 'hole' or void in the 'foreground' while the WMAP cold spot is in the 'background'.

The void could itself cause the cold spot through the "Integrated Sachs-Wolfe Effect" or "Rees-Sciama effect which are enhanced by the effect of dark energy stretching the void as photons pass through it.

It seems reasonable to assume that the cold spot and void are connected so that a large under-dense of the sky at the Surface of Last Scattering, at a red-shift of z ~1100, subsequently gave rise to an under-dense region or void later on, which we now observe at a smaller red-shift of z ~ 1.

The observations are described in this paper: Extragalactic Radio Sources and the WMAP Cold Spot. If the void is as large as it appears then this would cause a problem for the standard model:
This is far outside the current expectations of the concordance cosmology, and adds to the anomalies seen in the CMB.
Garth
 
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1.

What is the WMAP cold spot and void in the universe?

The WMAP (Wilkinson Microwave Anisotropy Probe) cold spot and void in the universe is a region of space that appears to have a significantly lower temperature than the rest of the cosmic microwave background radiation, which is the remnant heat from the Big Bang. It is also accompanied by a large void, or area of less dense matter, in the same location.

2.

How was the WMAP cold spot and void discovered?

The WMAP satellite, launched in 2001, was able to map the cosmic microwave background radiation with unprecedented accuracy. This led to the discovery of the cold spot and void in 2004. Follow-up observations with ground-based telescopes also confirmed the existence of this anomaly in the universe.

3.

What could cause the WMAP cold spot and void?

There are a few theories about what could be causing the WMAP cold spot and void. One possibility is that it is a result of the inflationary period of the universe, where a sudden and rapid expansion took place. Another theory suggests that it may be due to a supervoid, which is a large empty region of space that may have been created by the pull of neighboring galaxy clusters.

4.

How big is the WMAP cold spot and void?

The WMAP cold spot has a diameter of about 70 billion light years, making it one of the largest structures in the known universe. The void, or empty space, within this region is estimated to be about 1.8 billion light years in diameter.

5.

What impact does the WMAP cold spot and void have on our understanding of the universe?

The WMAP cold spot and void challenge our current understanding of the universe and its origins. It raises questions about the validity of our theories and models, and has sparked further research and studies to try and explain this anomaly. It also serves as a reminder of how much we still have to learn about the vastness and complexity of our universe.

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