True map of universe from computer simulation with CMB initial state

In summary, it seems that the biggest hurdle to simulating the universe would be the computational complexity and the lack of detail in the cosmic microwave background map. Finding our own galaxy within the simulation would also be a difficult task.
  • #1
divitWasHere
2
0
Do you think we will ever be able to create a simplified computer simulation of the universe using the cosmic microwave background as the initial state that would generate the true locations of galaxies or at least galaxy clusters, and then be able to find our own galaxy or galaxy cluster within this simulation?

I assume the model would have to make a great number of simplications while still preserving the true location of formed galaxies.

What are the biggest bottlenecks?
1. computation complexity?
2. not enough detail in the cosmic microwave background map?
3. finding our own galaxy once the simulation runs?

~David
 
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  • #2
Hi David, welcome here. Well my view is that the Universe is too random to repeatedly predict any relatively tiny event like a Galaxy cluster. Also I am not sure if the fluctuations we can see in the CMBR can be proven to correspond to matter we can still see forming part of any galaxy clusters. Let's see what the experts say about this.
 
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  • #3
4. The light of the plasma that eventually became our galaxy now being part of the CMB of observers 42 billion light years away, having passed our progenitor atoms some 13.8 billion years ago.
IOW: you cannot see your own past, you always see light from somewhere else. There are no mirrors in the universe.

The CMB we see now has nothing to do with galaxy formation at our position. Simulations use only its statistical properties to derive their starting conditions, not its actual shape. It would not be sufficient as starting condition for a 3D simulation anyway, as it is a 2D surface, not a 3D space.
 
  • #4
Thanks Ich. So from what I understand, even if we were able to overcome the computational burden, we do not have enough information for the initail state to generate a true map of our region. Our initial state cannot be implied from any other data that we currently have.
 
  • #5
Right.

What we see is an enormous uniformity in the CMB, even though it started from totally different regions of the universe. So it is a reasonable assumption that the universe of our past also looked somewhat similar. The simulation use random starting conditions with the constraing that they'd give rise to a similar looking CMB. If everything works correctly, you get a random universe that looks somewhat similar to our own.
 

1. What is a "true map of the universe from computer simulation with CMB initial state"?

A true map of the universe from computer simulation with CMB initial state is a representation of the entire observable universe created through computer simulations and using data from the cosmic microwave background (CMB) as the initial starting point. This map shows the distribution of matter, energy, and other structures in the universe as it has evolved over billions of years.

2. How is this map created?

This map is created using complex computer simulations that take into account the known laws of physics and the initial conditions of the universe, specifically the temperature and density fluctuations in the CMB. These simulations use sophisticated algorithms to model the evolution of the universe and generate a visual representation of its structure.

3. Why is a CMB initial state important for creating this map?

The CMB is the oldest light in the universe, dating back to just 380,000 years after the Big Bang. It contains valuable information about the early universe and its initial conditions, such as the distribution of matter and energy. Using the CMB as the starting point for simulations allows for a more accurate representation of the universe's evolution.

4. Is this map considered to be completely accurate and reliable?

While the map is based on the best available data and simulations, it is not considered to be 100% accurate or reliable. There are still many unknowns and uncertainties in our understanding of the universe, and the map is constantly being refined and updated as new data and advancements in technology become available.

5. What can we learn from this map of the universe?

This map allows us to study the large-scale structure of the universe and understand its evolution over time. It can also provide insights into the distribution of dark matter and dark energy, as well as the formation of galaxies and other cosmic structures. This information can help us better understand the origins and fate of the universe.

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