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Measurement of Quantum Interference in a Silicon Ring Resonator Photon Source
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    This study introduces a secure communication system using photonic physical unclonable functions (PUFs) in silicon micro-cavities. These devices generate secure key material from physical chaos, offering a compact and robust alternative for secure data transmission.

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    Area of Science:

    • Photonics
    • Quantum Information Science
    • Integrated Optics

    Background:

    • Traditional secure communication relies on large, electronically stored cryptographic keys.
    • Physical unclonable functions (PUFs) offer a hardware-based security approach by leveraging unique physical properties.
    • Integrated silicon photonics provides a scalable platform for advanced optical functionalities.

    Purpose of the Study:

    • To develop a novel secure communication system utilizing photonic physical unclonable functions (PUFs).
    • To demonstrate the generation and extraction of substantial cryptographic key material from integrated micro-cavity devices.
    • To evaluate the performance and security of the proposed system in a practical communication scenario.

    Main Methods:

    • Construction of a secure communication system using pairs of nonlinear photonic PUFs based on integrated silicon micro-cavities.
    • Probing micro-cavities with spectrally-encoded ultrafast optical pulses to elicit chaotic lightwave responses.
    • Experimental demonstration of key material extraction and secure communication using the PUF responses.

    Main Results:

    • Extraction of 2.4 Gb of secure key material from a single micro-cavity PUF device.
    • Achievement of bit error rates below 10^-5 at code rates up to 0.1 in secure communication experiments.
    • Demonstration of enhanced security by avoiding transmission or digital storage of PUF responses.

    Conclusions:

    • Integrated silicon micro-cavity photonic PUFs offer a highly secure and compact solution for cryptographic key generation.
    • The proposed system is robust, inexpensive, and compatible with existing telecommunications infrastructure.
    • This technology is suitable for applications requiring high security, such as one-time pad or public key exchange.