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Tunable quantum two-photon interference with reconfigurable metasurfaces using phase-change materials.

Nooshin M Estakhri, Theodore B Norris

    Optics Express
    |May 14, 2021
    PubMed
    Summary
    This summary is machine-generated.

    Novel switchable metasurfaces control quantum interference using phase-change materials. These adaptive devices offer rapid, low-power, room-temperature operation for advanced quantum applications.

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    Area of Science:

    • Quantum optics and nanophotonics.
    • Materials science and condensed matter physics.

    Background:

    • Phase-change materials enable rapid, reversible switching between stable states.
    • Metasurfaces offer precise control over optical fields.
    • Nonclassical quantum interference is crucial for quantum technologies.

    Purpose of the Study:

    • To design novel switchable metasurfaces for controlling nonclassical two-photon quantum interference.
    • To demonstrate adaptive control of quantum interference using phase-change materials.

    Main Methods:

    • Design and simulation of adaptive metasurface geometries.
    • Utilizing thermally driven crystallographic phase transitions in phase-change materials.
    • Characterization of quantum interference modulation.

    Main Results:

    • Predicted tunable quantum interference from -97.7% to 75.48% in the first adaptive metasurface.
    • Observed switching of quantum interference from -59.42% to 86.09% in the second adaptive geometry.
    • Demonstrated high switching speed and no static power consumption.

    Conclusions:

    • Novel switchable metasurfaces enable dynamic control of quantum interference.
    • These devices pave the way for compact, rapidly controllable quantum devices.
    • Potential applications include improved quantum logic gates and quantum phase estimation systems.