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Are photons gravitons?

Are photons gravitons?

And photons—massless packets of light energy—can, in exceedingly rare cases, spontaneously transform into gravity particles, according to Douglas Singleton, a physicist at California State University, who was not involved with the new study. The reverse happens, too, he says: gravitons can become photons.

Are gravitons faster than photons?

“The Gravitons are faster than light” Adrian Ferent “The gravitational redshift is the proof that the gravitons are faster than light” Adrian Ferent Because: “The gravitons emitted after the photons, will not interact with the photons if they have only the speed of light” Adrian Ferent “I am the first who explained the …

Do photons carry gravity?

Photons do have gravitational pull. If you incorrectly stick with Newtonian gravity, it’s not going to be trivial that they do have any, as it’s pointed out that the rest mass of a photon is nil.

Can we detect graviton?

Unambiguous detection of individual gravitons, though not prohibited by any fundamental law, is impossible with any physically reasonable detector. The reason is the extremely low cross section for the interaction of gravitons with matter.

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How do gravitons and photons interact?

No one knows exactly how gravitons and photons would interact, largely because gravitons are still entirely theoretical. No one’s ever isolated one. But the researchers behind this new paper made a series of theoretical predictions: When a stream of gravitons hits a stream of photons, those photons should scatter.

How do you define graviton?

To define graviton, let’s consider to a photon that is falling in the gravitational field, and revert back to the behavior of a photon in the gravitational field. When a photon is falling in the gravitational field, it goes from a low layer to a higher layer density of gravitons.

Can We Hunt gravitational waves by looking at photons?

In this new paper, three researchers proposed a radical new method: hunting gravitational waves by looking for effects of direct interactions between gravitons — theoretical particles that carry gravitational force — and photons, the particles that make up light.

Can photons help us reconstruct the properties of a gravitational wave?

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By studying those photons after they’ve interacted with gravitons, you should be able to reconstruct properties of a gravitational wave, according Subhashish Banerjee, a co-author of the new paper and physicist at the Indian Institute of Technology in Jodhpur, India.