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Monday, March 16, 2020

Superdeterminism

Quantum mechanics is commonly assumed to be stochastic, which leads to the paradox that it cannot be simultaneously "real", "local" and "causal" (all defined terms of art) at once. But, superdeterminism is one way to approach that puzzle. 
Superdeterminism, a long-abandoned idea, may help us overcome the current crisis in physics. 
BY SABINE HOSSENFELDER & TIM PALMER 
Quantum mechanics isn’t rocket science. But it’s well on the way to take the place of rocket science as the go-to metaphor for unintelligible math. Quantum mechanics, you have certainly heard, is infamously difficult to understand. It defies intuition. It makes no sense. Popular science accounts inevitably refer to it as “strange,” “weird,” “mind-boggling,” or all of the above. 
We beg to differ. Quantum mechanics is perfectly comprehensible. It’s just that physicists abandoned the only way to make sense of it half a century ago. Fast forward to today and progress in the foundations of physics has all but stalled. The big questions that were open then are still open today. We still don’t know what dark matter is, we still have not resolved the disagreement between Einstein’s theory of gravity and the standard model of particle physics, and we still do not understand how measurements work in quantum mechanics. 
How can we overcome this crisis? We think it’s about time to revisit a long-forgotten solution, Superdeterminism, the idea that no two places in the universe are truly independent of each other. This solution gives us a physical understanding of quantum measurements, and promises to improve quantum theory. Revising quantum theory would be a game changer for physicists’ efforts to solve the other problems in their discipline and to find novel applications of quantum technology.
Hat tip to Sabine's blog which also features another rather philosophical essay. 

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