How Are Gravitons Related to Closed Strings in String Theory?

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In summary, a graviton is a hypothetical particle that is believed to be the force carrier of gravity. It is predicted by the theory of quantum gravity and is thought to work by interacting with other particles and objects that have mass. Currently, there is no direct evidence of their existence, but studying gravitons is important in understanding the fundamental forces of the universe and potentially leading to a unified theory of physics. Gravitons are also related to Einstein's theory of general relativity, as they help explain how gravity is transmitted between objects and are compatible with the principles of the theory.
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N.J.R
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I don't know the relation of graviton and closed string.
Why the graviton is closed string? And what conditions need that? :confused:
I really want to know about it in detail.(of course including formula)
 
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The graviton in bosonic string theory comes from the interaction of the right moving excitations and the left moving ones on the string. This requires the string to be closed; on an open string the R and L excitations would just peter out at the endpoints.
 
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Sure, I'd be happy to help explain the relation between gravitons and closed strings. First off, a graviton is a theoretical particle that is thought to be the carrier of the force of gravity. It is predicted by the theory of quantum gravity, which aims to unify the theories of general relativity and quantum mechanics.

Now, in string theory, which is a proposed theory of quantum gravity, the fundamental objects are not point-like particles, but rather tiny strings that vibrate at different frequencies. These strings can be open or closed, meaning they have two distinct ends or they form a loop. The graviton is a closed string, meaning it has no endpoints and forms a loop.

The reason for this is because the graviton is a spin-2 particle, which means it has two units of angular momentum. This is a property that is only possible for a closed string. In contrast, open strings can only have spin-0 or spin-1.

As for the conditions needed for a graviton to be a closed string, it is important to note that in string theory, the strings vibrate in extra dimensions beyond the usual four dimensions of space and time. These extra dimensions are compactified, meaning they are curled up and invisible at large scales. The graviton must exist in a 10-dimensional spacetime in order to be a closed string.

In terms of formula, the graviton is described by the graviton field, which is a tensor field that satisfies the Einstein field equations. This field is composed of closed strings and can be represented by a sum over all possible string states.

I hope this helps to clarify the relation between gravitons and closed strings. If you have any further questions, please don't hesitate to ask.
 

1. What is a graviton?

A graviton is a hypothetical particle that is believed to be the force carrier of gravity, similar to how photons are the force carrier of electromagnetism. It is predicted by the theory of quantum gravity, but has not yet been observed or detected.

2. How does a graviton work?

A graviton is thought to work by interacting with other particles and objects that have mass, creating the force of gravity between them. It is theorized to have no mass or charge, and travels at the speed of light.

3. Can gravitons be detected?

Currently, there is no direct evidence or experimental proof of the existence of gravitons. However, scientists are working on experiments and technologies to potentially detect them in the future.

4. What is the importance of studying gravitons?

Studying gravitons is important because it can help us better understand the fundamental forces of the universe and potentially lead to a unified theory of physics. It can also provide insights into the behavior of gravity, which is still not fully understood.

5. How are gravitons related to Einstein's theory of general relativity?

Einstein's theory of general relativity describes gravity as the curvature of space-time caused by the presence of mass and energy. Gravitons, in a way, are an extension of this theory by explaining how the force of gravity is transmitted between objects. They are also believed to be compatible with the principles of general relativity.

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