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FuzzballsIntroduction Fuzzballs, also called Stringy Stars, are String Theory's equivalent of Black Holes. In recent years physicists have delved into how strings could interconnect to create Black Holes, the result are large, very flaccid discs, which would not have a point sized singularity that is the essence of modern Black Hole. The event Horizon Samir Mathur, Ohio State University, calculated that the event horizon of Fuzzballs agree with the current theory of Black holes, but in one way it is different. The event horizon in Black Holes are very precise and strict while in Fuzzballs the event horizon is very much like a mist, they are fuzzy - thus the name fuzzballs. The essence of the Black Hole Black Holes have grabbed attention as the massive killers of the universe that destroy anything in it's path - even light can not escape it's pull. However Fuzzballs have redefined this idea and turned in on it's head. As decribed earlier Fuzzballs don't have a prominent singlarity at it's centre, and so the destruction of data that is the essence of Black Holes is no longer existent in Fuzzballs. Instead the data from the Fuzzball marks the strings that carry the infomation in vibrations. This data can be given out by the escape of Hawking radiation. What Fuzzballs accomplish that Black Holes don't Black Holes create a problem they cause a contradiction widely know as the Black hole information paradox, which means that they don't obey the laws of Quantum Physics. The problem is that it is widely beleived particles that enter a Black Hole release no information outside of the Black Hole. However, Fuzzballs seem to have solved this problem by the fact that information that enter the Fuzzballs are given out by the vibrations in the strings that make them up. See Also Black Holes Hawking radiation Black hole information paradox String Theory External links | Are Black Holes Fuzzballs? | Information paradox solved? If so, Black Holes are "Fuzzballs"
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