Biochemist Dr. Isaac Asimov was joking, of course, when he came up with the substance (it came up in his orals for his doctorate, and it terrified him), but some theoretical physicists have suggested that something similar to Asimov's fictional chemical actually exists at the quantum level.
Phys Org reports that "Physicists provide support for retrocausal quantum theory, in which the future influences the past."
(Phys.org)—Although there are many counterintuitive ideas in quantum theory, the idea that influences can travel backwards in time (from the future to the past) is generally not one of them. However, recently some physicists have been looking into this idea, called "retrocausality," because it can potentially resolve some long-standing puzzles in quantum physics. In particular, if retrocausality is allowed, then the famous Bell tests can be interpreted as evidence for retrocausality and not for action-at-a-distance—a result that Einstein and others skeptical of that "spooky" property may have appreciated.
It's a long and informative article that I found fascinating.
(Score: 2) by pvanhoof on Sunday July 09 2017, @01:13PM (5 children)
Just like Solipsism can be rejected as a scientific fact using Karl Popper's requirement of it being falsifiable is, to me, retrocausality subject to the same principles. I can accept them as soon as they are falsifiable, but not earlier. In contrast was general relativity and special relativity at the time probably equally non-intuitive, but those two are both falsifiable.
(Score: 2) by mcgrew on Sunday July 09 2017, @02:33PM (2 children)
What in Einstein's theory was falsifiable in 1914? Brand new exotic theories are seldom falsifiable until the technologies to test those theories are available. For example, it was over a century before gravity waves could be confirmed.
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(Score: 2) by pvanhoof on Sunday July 09 2017, @08:01PM
Yes, I don't think we shouldn't try to falsify retrocausality. But absent a method to do so ...
(Score: 2) by dry on Monday July 10 2017, @04:26AM
Mercury's orbit was one of the first tests. Newtons laws never quite worked with predicting Mercury's orbit but Einsteins did. Wasn't long before gravitational bending of light (a star during an eclipse) was observed.
(Score: 2) by HiThere on Sunday July 09 2017, @05:44PM (1 child)
When you have several different theories that make exactly the same predictions in every place you can test, how do you choose between them? Retrocausality (IIUC) is one of the legitimate interpretations of quantum theory. As is the Multi-World interpretation. As is the Copenhagen interpretation. I believe there are a couple more. They all make exactly the same predictions in every testable area. This doesn't mean you can just chose any theory you like, but it does mean that there's more than one reasonable alternative...unless, English (and I *think* all other human languages) to the contrary they are actually saying the same thing. Bohm's implicate order isn't actually one of the group, because he does make a claim that may someday be testable. It's just currently indistinguishable. (He claims that there are hidden variables of a non-local variety...but it's not clear how to find them.) Most of the interpretations, however, don't have any prediction that distinguishes them. That's why they are called interpretations rather than theories: They all use the same math.
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(Score: 2) by pvanhoof on Sunday July 09 2017, @08:17PM
Interpretations rather than theories: They must all be falsifyable to be accepted as science fact.