The concept of entanglement links far-flung particles. That relationship can prove that someone is in the location they claim to be.
DENVER — An urgent call comes in from the White House. But the recipient is skeptical: They need a way to verify that the message comes from the purported location. Quantum physics has a solution., physicist Abigail Gookin reported March 18 at the American Physical Society’s Global Physics Summit.
Called quantum position verification, the technique is based on the concept ofWe summarize the week's scientific breakthroughs every Thursday. In the future, the technique could be useful for preventing some types of phishing attacks, or for limiting which users can access certain resources. The method could be part of a futureHere’s how it works: Two people, called verifiers, each want to confirm that a third person, called a prover, is in a given location. The verifiers, who are on opposite sides of the prover’s purported location, each send a random number to the prover, which the prover will use to determine their next step. Meanwhile, one of the verifiers creates a pair of entangled photons, or particles of light. The verifier holds onto one photon, and sends the other to the prover. The prover and verifier measure their photons simultaneously. Specifically, they measure polarization, the direction in which the electromagnetic waves of the photons wiggle. The random numbers tell the prover what measurement settings to use to determine their photon’s polarization. The prover sends the result of their measurement back to the verifiers. Then, the verifiers compare the prover’s result to the result from the measurement of the other photon. Over many repetitions of this photon-measuring protocol, the results should be strongly linked, or correlated. If a sneaky impostor intercepted the photon from another location, the results of the measurements wouldn’t be as strongly correlated as expected, thanks to constraints set by the speed of light and quirks of quantum measurements. The verifiers would know that something was fishy. At the National Institute of Standards and Technology in Boulder, Colo., scientists created two verifier stations, separated by about 200 meters and connected by optical fibers to a prover in between. The method successfullyThe basis for the technique is what’s called a loophole-free Bell test, a method of sending and measuring quantum particles that proves that the oddities of quantum physicsBecause the technique connects a real, physical place to information the parties exchange, it could be the basis for other secure communication techniques going forward says Gookin. “This is the first time we can concretely tie someone’s location to their information.”
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