Lightest Supersymmetric electrically charged particle

In summary, if TeV scale supersymmetry is true with R-parity conservation, the lightest supersymmetric particle would make for a stable and potentially great dark matter candidate. However, the existence of a "lightest charged" supersymmetric particle, also known as the "lightest chargino," would depend on the specific SUSY parameter space. It could have a short lifetime due to decay, but it cannot live too long as it would affect the abundances of light elements. Models such as CHAMPs exist, but they are constrained due to their potential accumulation in the oceans. Further research is needed to determine the bounds on their lifetime in the context of MSSM.
  • #1
JustinLevy
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If TeV scale supersymmetry turns out to be true, with R-parity conservation it has been argued the lightest supersymmetric particle would be a great dark matter candidate since it would be stable.

I'm curious whether a similar argument could be used to say that the "lightest charged" supersymmetric particle would have to be long lived as well. Are there enough constraints on MSSM to estimate an order of magnitude for the lifetime of such a particle?

EDIT: Okay, I found that such a particle is referred to as the "lightest chargino" which has helped google searches. There are plenty of comments suggesting this could be long lived, but I haven't found much discussion on why or what MSSM predicts yet.
 
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  • #2
It really depends on where you are living in the SUSY parameter space. For example, if you have gauge mediation, the stau (the SUSY partner of the tau lepton) can have a lifetime of a few microseconds, as its decay rate to the gravitino (the LSP) is highly suppressed.

We know that the lightest charged particle has to decay with a very short lifetime, otherwise the predictions for the abundances of the light elements tend to get screwed up. It can't live too long, either, because we don't see any of it today. Other than that I'm not sure of the bounds.
 
  • #3
They are called CHAMPs. They exist in some models, but they are severely constrained because they'd accumulate in our oceans in the form of superheavy water, and there are strong bounds (order of 10^-27 or better) on their concentration in the oceans.
 

Related to Lightest Supersymmetric electrically charged particle

What is the Lightest Supersymmetric electrically charged particle (LSP)?

The LSP is a hypothetical particle predicted by supersymmetric theories, which suggest that every known particle has a heavier, supersymmetric partner. The LSP is believed to be the lightest of these supersymmetric particles and is thought to have a mass of around 100 GeV.

What are the properties of the LSP?

The LSP is predicted to be electrically charged and have a neutral spin. It is also believed to be a stable particle, meaning it does not decay into other particles. This makes it a potential candidate for dark matter, which makes up a large portion of the universe's mass but does not interact with light.

Why is the LSP important in cosmology?

The LSP is important in cosmology because it is a potential candidate for dark matter, which plays a crucial role in the formation and evolution of the universe. If the LSP is indeed the lightest supersymmetric particle, it could help us better understand the nature of dark matter and its impact on the universe.

How is the LSP being studied?

Scientists are studying the LSP through experiments at particle accelerators, such as the Large Hadron Collider. These experiments aim to produce and detect the LSP and other supersymmetric particles, providing evidence for their existence and properties.

What are the implications of discovering the LSP?

Discovering the LSP would confirm the existence of supersymmetry and could provide a deeper understanding of the fundamental particles and forces of the universe. It could also have practical applications, such as in the development of new technologies and energy sources.

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