According to recent scientific studies, scientists have theorized the existence of a particle that could act as a “portal” to a fifth dimension, potentially explaining the mystery of dark matter; this hypothetical particle is often referred to as a “fermion” and the idea is that particles could travel through this portal to access a fifth dimension, though currently, this is purely theoretical and no actual portal has been opened in reality.

Key points about this concept: 

• The “fermion” particle:Scientists believe this hypothetical particle could act as a bridge between our known dimensions and a fifth dimension, allowing particles to move between them. 
• Dark matter explanation:Some researchers suggest this fifth dimension could be where a significant portion of the universe’s dark matter resides, potentially explaining its mysterious nature. 
• Highly theoretical:While the idea is intriguing, it’s important to note that this is currently a theoretical concept with no concrete experimental evidence to support it. 

Conclusion. Scientists are some great-minded people that make fascinating discoveries for humanity. The idea of hypothetical particles serving as a portal to the fifth dimension has revealed that humans could make today’s impossibilities to become possible in the near future

One could study the potential role played by the new scalar particle in stabilizing the extra dimension,” the team said. “This could also eventually lead to an interesting cosmological history of the universe and might lead to the production of gravitational waves. This is an interesting line of research, which we plan to follow in the months ahead. One could also try to find new ways of probing this particle at future hadron colliders,” the researchers concluded. “As you can see, there are really plenty of things one can think of!”

Fifth Dimension

Most scientists often refer to our current technological advancement while making newer scientific findings. The team of scientists that participated in this study thinks that we still have to build more powerful and sophisticated colliders before we can spot the particles that may aid in unlocking the fifth dimension.

In 2012, astronomers used the Large Hadron Collider (LHC) in Switzerland to discover the Higgs boson. This discovery earned the scientists a Nobel Prize in Physics. However, the scientists that came up with the 5th dimension study noted that the LHC would not aid in finding the particles as it would be too heavy to be created in any current facility.

However, the researchers think the particles might be detectable using a new generation of proposed colliders like the Compact Linear Collider (CLIC), the International Linear Collider, and the Future Circular Collider.

Due to its large mass the prospects for such a direct discovery seem very challenging even at the high energies discussed for such a machine (100 TeV),” the researchers said.

Another possibility, which we did not explore yet, is that this new particle could play an important role in the cosmological history of the universe, and might produce gravitational waves that can be searched for with future gravitational-wave detectors,” the scientists noted.

With the limitations of our current technologies, the team of researchers is hoping that future studies of dark matter could move us closer to discovering the possible existence of these particles. Hence, the team is confident that their 5th-dimension model will likely be advanced in the future in particle physics and cosmology.

• Dark matter could be the result of fermions pushed into a warped fifth dimension.
• This theory builds on an idea first stated in 1999, but is unique in its findings.
• Dark matter makes up 75 percent of matter but has never been observed … yet.

Scientists say they can explain dark matter by positing a particle that links to a fifth dimension.

While the “warped extra dimension” (WED) is a trademark of a popular physics model first introduced in 1999, this research, published in The European Physical Journal C, is the first to cohesively use the theory to explain the long-lasting dark matter problem within particle physics. 

Our knowledge of the physical universe relies on the idea of dark matter, which takes up the vast majority of matter in the universe. Dark matter is a kind of pinch hitter that helps scientists explain how gravity works, because a lot of features would dissolve or fall apart without an “x factor” of dark matter. Even so, dark matter doesn’t disrupt the particles we do see and “feel,” meaning it must have other special properties as well.

Please like subscribe comment your precious comments on universe discoveries

Sk-mania-blogs.in

Full article source google

https://www.buymeacoffee.com/Satyam55