The Big Bang: Matter Creation & Photons

In summary: This process is called pair production. So at the beginning of the universe, there was a slight excess of matter.
  • #1
aricho
71
0
I was reading some stuff about the big bang and about the singularity. When the big bang happens, is a whole lot of matter just created?

And,

Are Photons counted as matter?

Thanks
 
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  • #2
What happened at the big bang and where the stuff came from is an open question. After the big bang the universe consisted mostly of energy (photons) which interacted (it takes at least 2) to form matter-antimatter pairs. For reasons not fully understood, the subsequent particle reactions were such that there was a slight excess of baryonic (ordinary) matter, which is why we're here.
 
  • #3
i think the matter particles had a slightly longer half life, hence when all the matter/anti-matter had collided and annihilated (producing photons) there was an excess of matter (since some of the antimatter had decayed already).
 
  • #4
aricho said:
When the big bang happens, is a whole lot of matter just created?

There is a limit to how far back toward the Big Bang modern physics can describe (something like 10^-43 seconds after the beginning). So we can't tell what was going on at Time = 0. However, physics can describe what happened after that (with varying degrees of certainty).

To say the least, the Big Bang was an energetic event. The Big Bang was not an explosion of stuff into empty space but was the rapid expansion of all space. As space expanded, the energy therein cooled. At about 10^-36 seconds after the beginning, elementary particles like quarks and electrons were able to form. At about 10^-6 seconds, the quarks were able to combine into protons and neutrons. But the universe was still too hot for atoms to form. It took another 300,000 years for things to cool down enough to form atoms (throughout the universe, since that original energy was already throughout the whole universe). At this point, gravity pulled this matter together to form stars and galaxies (throughout the universe).
 
  • #5
so..

so matter was just, made after "phlanks minute" (sorry about spelling)?

Can Photons turn into matter?
 
  • #6
Can Photons turn into matter?
As I tried to explain in my previous note, a single photon by itself can't turn into matter (conservation of momentum). However two photons can collide and turn into a matter-antimatter pair.
 

1. What is the Big Bang Theory?

The Big Bang Theory is a scientific model that describes the early development of the universe. It suggests that the universe began as a singularity, a point of infinite density and temperature, and has been expanding and cooling ever since.

2. How did matter form during the Big Bang?

Matter formation during the Big Bang occurred through a process called nucleosynthesis. In the first few minutes after the Big Bang, the high temperatures and energy allowed for the creation of simple elements like hydrogen and helium. As the universe expanded and cooled, these elements formed into stars and galaxies, eventually creating more complex elements through nuclear fusion.

3. What are photons and how do they relate to the Big Bang?

Photons are particles of light that carry energy. During the Big Bang, the universe was filled with high-energy photons that were constantly interacting with matter and creating new particles. As the universe expanded and cooled, these photons lost energy and became the cosmic microwave background radiation that we can observe today.

4. How do scientists study the Big Bang?

Scientists study the Big Bang through a combination of observational and theoretical methods. They study the cosmic microwave background radiation, the distribution of galaxies, and the expansion of the universe to gather evidence and develop theories about the early universe. They also use mathematical models and computer simulations to test and refine these theories.

5. What is the significance of the Big Bang in understanding the universe?

The Big Bang is significant because it helps us understand the origin and evolution of the universe. By studying the aftermath of the Big Bang, we can learn about the fundamental laws of physics, the formation of galaxies and stars, and the creation of the elements that make up our world. It also provides a framework for further research and advancements in our understanding of the universe.

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