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Unless you are a quantum physicist, your immediate connotation for the phrase "remote action" might not conjure up images of particle interaction.
Thanks to the new efforts of the SETI Institute in Mountain View, California, you can now see a picture of what Einstein called "a spooky action at a distance."
The fundamental concept of remote action not only underlies quantum theory, but nature itself, and simply presents the very real ability of an object to be modified, mobilized or affected by another object without the help of physical or mechanical contact.
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While this may sound very scientific and unrealistic at first, Einstein's "frightening" label refers to his astonishment at the seemingly instantaneous way in which this action can take place between two particles, regardless of the distance local that separates them.
Scientists have captured the very first image of a phenomenon described by Albert Einstein as "a spooky action at a distance". The photo shows a strong form of quantum entanglement, where two particles interact and share physical states for a moment. @BBC News https://t.co/qP3aeo0Q5g pic.twitter.com/UtxGCzG8jG
– SETI Institute (@SETIInstitute) July 13, 2019
Also known as quantum entanglement, or Bell entanglement after the physicist who laid the foundation for its early properties and uses, this type of physics underlies much of our modern encryption and of quantum computing.
Using a system that fired a chain of entangled photons from a point of origin of quantum light on various objects, a team of Glasgow physicists allowed us to take a giant step in our understanding of the entanglement of particles.
The phenomenon was visually displayed on materials in the state of liquid crystals, which altered the phase of the photons as they passed and gave this image a scientifically priceless.
The applications made possible by understanding this remarkable SETI image go beyond the description. In the worlds of 5G and beyond, this can possibly mean completely unbreakable encryption and new, unprecedented imaging methods.
Einstein and Bell must surely hail their approval of their quantum distance.
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