Difference between revisions of "QMS"
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(Remove card http://www.seafareproject.eu/files/how-much-does-ambien-cost-at-walmart.pdf buy ambien online At first glance, entanglement and wormholes both seem to offer a way around Einstein's dictum) |
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| − | + | Remove card http://www.seafareproject.eu/files/how-much-does-ambien-cost-at-walmart.pdf buy ambien online At first glance, entanglement and wormholes both seem to offer a way around Einstein's dictum that nothing can travel faster than light. But in both cases, that hope is dashed. Entanglement cannot be used to send signals faster than light because one cannot control the output of the measurement on the first atom and thus willfully set the state of the distant one. Similarly, one can't zip through a wormhole because it's impossible to escape the black hole on the other end. Still, there is a connection. In June, Juan Maldacena, a theorist at the Institute for Advanced Study in Princeton, New Jersey, and Leonard Susskind, a theorist at Stanford University in Palo Alto, California, imagined entangling the quantum states of two black holes. They then imagined pulling the black holes apart. When that happens, they argued, a bona fide wormhole forms between the two black holes. | |
Revision as of 07:59, 7 April 2015
Remove card http://www.seafareproject.eu/files/how-much-does-ambien-cost-at-walmart.pdf buy ambien online At first glance, entanglement and wormholes both seem to offer a way around Einstein's dictum that nothing can travel faster than light. But in both cases, that hope is dashed. Entanglement cannot be used to send signals faster than light because one cannot control the output of the measurement on the first atom and thus willfully set the state of the distant one. Similarly, one can't zip through a wormhole because it's impossible to escape the black hole on the other end. Still, there is a connection. In June, Juan Maldacena, a theorist at the Institute for Advanced Study in Princeton, New Jersey, and Leonard Susskind, a theorist at Stanford University in Palo Alto, California, imagined entangling the quantum states of two black holes. They then imagined pulling the black holes apart. When that happens, they argued, a bona fide wormhole forms between the two black holes.
