Quantum Gravity: Photons, Electromagnetic Radiation & the Universe

In summary, although photons have relativistic mass and thus can theoretically have a gravitational field, this effect is very small and cannot account for the observed gravity in the universe or the accelerating expansion. Dark energy remains the most likely explanation for these phenomena.
  • #1
backenvelope
1
0
We know that a photon has no mass, but has relativistic mass - which means in theory, a photon will have a gravitational field.

What is the total possible gravitational affect of all photons (and electromagnetic radiation) emitted from the stars in the universe?

Could this account for the gravity seen in the universe – which cannot be explained by ordinary matter?
And could this explain the accelerating expansion of the universe, instead of the dark matter and dark energy interaction that's otherwise predicted?
 
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  • #2
backenvelope said:
We know that a photon has no mass, but has relativistic mass

A better term would be "energy" (still better would be "stress-energy").

backenvelope said:
Wwhich means in theory, a photon will have a gravitational field.

Yes.

backenvelope said:
What is the total possible gravitational affect of all photons (and electromagnetic radiation) emitted from the stars in the universe?

Very small; several orders of magnitude smaller than the effect of the ordinary matter. (Actually, AFAIK the largest component of the stress-energy of photons and EM radiation comes from the CMBR; the amount of stress-energy in starlight is considerably smaller than that.)

backenvelope said:
Could this account for the gravity seen in the universe – which cannot be explained by ordinary matter?

No. It's way too small.

backenvelope said:
And could this explain the accelerating expansion of the universe, instead of the dark matter and dark energy interaction that's otherwise predicted?

No. Stress-energy due to radiation can't cause an accelerating expansion, any more than stress-energy from ordinary matter can. (Dark matter can't either; only dark energy can.)
 
  • #3
PeterDonis said:
No. Stress-energy due to radiation can't cause an accelerating expansion, any more than stress-energy from ordinary matter can. (Dark matter can't either; only dark energy can.)
In fact, radiation causes the expansion to slow even more than normal matter does.
 

What is quantum gravity?

Quantum gravity is a theoretical framework that aims to reconcile the theories of quantum mechanics and general relativity. It seeks to explain the behavior of gravity at a microscopic level, where the laws of quantum mechanics apply.

How do photons and electromagnetic radiation relate to quantum gravity?

Photons are the fundamental particles of electromagnetic radiation, and they play a crucial role in the theory of quantum gravity. In this theory, gravity is thought to be carried by particles called gravitons, similar to how photons carry the electromagnetic force.

What is the significance of quantum gravity in understanding the universe?

Quantum gravity is essential in understanding the universe's behavior at a fundamental level. It helps to explain how the laws of quantum mechanics and general relativity apply to the universe's structure and evolution, such as the behavior of black holes and the Big Bang.

What are some challenges in studying quantum gravity?

One of the main challenges in studying quantum gravity is that it requires a very high level of mathematical and theoretical understanding. It also requires sophisticated experimental techniques, making it challenging to test and validate theories in this field.

Are there any potential practical applications of quantum gravity?

While quantum gravity is still a theoretical concept, it has the potential to lead to new technologies and applications in the future. For example, a better understanding of quantum gravity could lead to advancements in quantum computing and space travel.

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