Parallel universes really do exist, according to a mathematical discovery by Oxford scientists described by one expert as "one of the most important developments in the history of science".
The parallel universe theory, first proposed in 1950 by the US physicist Hugh Everett, helps explain mysteries of quantum mechanics that have baffled scientists for decades, it is claimed. In Everett's "many worlds" universe, every time a new physical possibility is explored, the universe splits. Given a number of possible alternative outcomes, each one is played out - in its own universe. The number of alternative scenarios is endless. It is a bizarre idea which has been dismissed as fanciful by many experts. But the new research from Oxford shows that it offers a mathematical answer to quantum conundrums that cannot be dismissed lightly. According to quantum mechanics, nothing at the subatomic scale can really be said to exist until it is observed. Until then the object can have several different states or appear to be in different places at the same time. Unobserved particles then are then described as having the aspect of a wave or multiple "probable" states. The Oxford team showed mathematically that the branching structure created by the universe splitting into parallel versions of itself can explain the probabilistic nature of quantum outcomes.
from Breitbart.com
The parallel universe theory, first proposed in 1950 by the US physicist Hugh Everett, helps explain mysteries of quantum mechanics that have baffled scientists for decades, it is claimed. In Everett's "many worlds" universe, every time a new physical possibility is explored, the universe splits. Given a number of possible alternative outcomes, each one is played out - in its own universe. The number of alternative scenarios is endless. It is a bizarre idea which has been dismissed as fanciful by many experts. But the new research from Oxford shows that it offers a mathematical answer to quantum conundrums that cannot be dismissed lightly. According to quantum mechanics, nothing at the subatomic scale can really be said to exist until it is observed. Until then the object can have several different states or appear to be in different places at the same time. Unobserved particles then are then described as having the aspect of a wave or multiple "probable" states. The Oxford team showed mathematically that the branching structure created by the universe splitting into parallel versions of itself can explain the probabilistic nature of quantum outcomes.
from Breitbart.com
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