Quantum Metasurfaces Manipulate Free Photons

LOS ALAMOS, N.M., Aug. 3, 2021 — A team at Los Alamos National Laboratory proposes that modulated quantum metasurfaces can control all properties of photonic qubits. According to the team, such a breakthrough would affect the fields of quantum information, communications, sensing, imaging, and energy and momentum harvesting.

“People have studied classical metasurfaces for a long time,” said Diego Dalvit of the Physics of Condensed Matter and Complex Systems group in the laboratory’s Theoretical Division. “But we came up with this new idea, which was to modulate in time and space the optical properties of a quantum metasurface that allow us to manipulate, on demand, all degrees of freedom of a single photon.”
A metasurface with all-optical modulation of the refractive index induces color-spin-path quantum entanglement on a transmitted single photon. Courtesy of Los Alamos National Laboratory.
A metasurface with all-optical modulation of the refractive index induces color-spin-path quantum entanglement on a transmitted single photon. Courtesy of Los Alamos National Laboratory.

The team described the metasurface it developed as looking like an array of rotated crosses, which it can then manipulate with lasers or electrical pulses. Team members then proposed to shoot a single photon through the metasurface, where the photon splits into a superposition of many colors, paths, and spinning states that are all intertwined, generating so-called quantum entanglement — meaning that the single photon is capable of inheriting all these different properties at once.

“When the metasurface is modulated with laser or electrical pulses, one can control the frequency of the refracted single photon, alter its angle of trajectory, the direction of its electrical field, as well as its twist,” said Abul Azad from the Center for Integrated Nanotechnologies at the laboratory’s Materials Physics and Applications Division.

In manipulating these properties, the technology could be used to encode information in photons traveling within a quantum network. Encoding photons is particularly desirable in cryptography, as hackers are unable to view a photon without changing its fundamental physics, which would alert the sender and receiver that the information has been compromised.

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Post time: Aug-17-2021


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