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kuon
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Does anybody roughly now the basics of why you can have hairy black holes in more than 4 D?
Thanks :)
Thanks :)
How do you know that? Any references?kuon said:You can have hairy black holes, that's for sure.
kuon said:You can have hairy black holes, that's for sure. The question is that I don't know why. :(
Finbar said:If you don't no why then you can't be sure can you? If someone says you can have hairy black holes why take their word for it?
I do recall that there are more black hole solutions in higher dimensions...ring solutions
so i believe this paper contains the answers you are looking for http://arxiv.org/abs/hep-th/0608012
The "No hair theorem loophole" refers to a concept in theoretical physics that suggests that black holes may not be completely "bald" or featureless, as originally theorized by the famous "No hair theorem". It proposes that black holes may actually possess some sort of "hair" or remnants of their past interactions and characteristics.
The "No hair theorem loophole" challenges our current understanding of black holes by suggesting that they may have more unique features and characteristics than previously thought. This could have significant implications for our understanding of gravity, quantum mechanics, and the nature of spacetime.
Currently, there is no concrete evidence to support the existence of the "No hair theorem loophole". However, ongoing research and theoretical models have proposed possible scenarios in which black holes may possess "hair" or remnants of their past interactions. Further observations and experiments are needed to confirm or refute these ideas.
The "No hair theorem loophole" has sparked new interest and research in the study of black holes. It has prompted scientists to explore alternative theories and models to better understand the nature of these elusive objects. It also highlights the need for more advanced observational tools and techniques to study black holes in greater detail.
If the "No hair theorem loophole" is proven to be true, it could revolutionize our understanding of black holes and the laws of physics that govern them. It could also have implications for our understanding of the universe as a whole, as black holes play a significant role in the evolution and structure of galaxies. Additionally, it could open up new avenues for further research and discoveries in theoretical physics.