Diamond-based-optical-circuitry-research-papers | Open Access Journals

Journal of Lasers, Optics & Photonics

ISSN: 2469-410X

Open Access


Jewel offers remarkable material points of interest for the acknowledgment of small scale and nanomechanical resonators on account of its high Young's modulus, similarity with cruel situations and unrivaled warm properties. Simultaneously, the wide electronic bandgap of 5.45 eV makes jewel a reasonable material for incorporated optics in light of broadband straightforwardness and the nonattendance of free-bearer assimilation ordinarily experienced in silicon photonics. Here we exploit both to build full-scale optomechanical circuits in precious stone flimsy movies. We show that polycrystalline jewel films manufactured by concoction fume statement give an advantageous wafer-scale substrate for the acknowledgment of top notch nanophotonic gadgets. Utilizing detached nanomechanical resonators inserted in on-chip Mach–Zehnder interferometers, we show effective optomechanical transduction through angle optical powers.

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