Quantum Teleportation Achieved Over Standard Internet Cable

MetaversePlanet March 24, 2025Last Updated: March 24, 2025

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Engineers at Northwestern University have made history by successfully achieving quantum teleportation over a fiber-optic cable that also carries regular internet traffic. Professor Prem Kumar, who led the research, stated, “No one believed this could be done. Our work opens the door to taking quantum communications to the next level.”

The engineering team has made a major breakthrough in the field of quantum teleportation, demonstrating for the first time that quantum information can be transmitted alongside classical internet data through the same physical infrastructure. As research progresses, this could mark the beginning of a new era where quantum and classical networks operate side-by-side, offering unprecedented levels of speed and security in communications.

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Quantum Teleportation via Standard Internet Cables

The researchers successfully conducted quantum teleportation using a fiber-optic cable that already handles standard internet traffic. The details of the experiment were published in the journal Optica, revealing new opportunities to merge quantum communication with existing internet infrastructure. This advancement also holds significant potential for quantum sensing and quantum computing applications.

Quantum teleportation leverages the power of quantum entanglement to allow ultra-fast and secure information transfer between distant users. Unlike traditional communication methods, it doesn’t involve the physical transfer of particles. Instead, it enables information to be shared between entangled particles across long distances.

“No One Thought It Was Possible”

Professor Prem Kumar emphasized that the idea was widely doubted: “Our research provides a path for quantum and classical networks to coexist on a shared fiber-optic infrastructure. Fundamentally, this paves the way for the future of next-level quantum communication.”

Previously, many researchers were skeptical about the feasibility of quantum teleportation over cables already carrying classical communication. The main concern was that entangled photons would be drowned out by millions of other light particles traveling through the fiber-optic cables.

However, Kumar and his team found a solution. By conducting in-depth studies on light scattering within fiber-optic lines, they identified a less crowded wavelength to transmit their photons. They also applied specialized filters to reduce noise caused by regular internet traffic.

Kumar explained that the team performed a meticulous analysis of scattering patterns and strategically placed the photons at a critical point where interference was minimal. This approach made it possible for quantum signals to survive and function effectively, even within a noisy classical communication channel.