Observation of Quantum Zeno Blockade on Chip #MMPMID29093456
Chen JY; Sua YM; Zhao ZT; Li M; Huang YP
Sci Rep 2017[]; 7 (ä): ä PMID29093456show ga
Overlapping in an optical medium with nonlinear susceptibilities, lightwaves can interact, changing each other?s phase, wavelength, waveform shape, or other properties. Such nonlinear optical phenomena, discovered over a half-century ago, have led to a breadth of important applications. Applied to quantum-mechanical signals, however, these phenomena face fundamental challenges that arise from the multimodal nature of the interaction between the electromagnetic fields, such as phase noises and spontaneous Raman scattering. The quantum Zeno blockade allows strong interaction between lightwaves without physical overlap between them, thus offering a viable solution for the aforementioned challenges, as indicated in recent bulk-optics experiments. Here, we report on the observation of quantum Zeno blockade on chip, where a lightwave is modulated by another in a distinct ?interaction-free? manner. For quantum applications, we also verify its operations on single-photon signals. Our results promise a scalable platform for overcoming several longstanding challenges in applied nonlinear and quantum optics, enabling manipulation and interaction of quantum signals without decoherence.
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Sci+Rep 2017 ; 7 (ä): ä
