Low power four wave mixing in an integrated, micro-ring resonator with Q = 12 million

Ferrera, Marcello; Duchesne, D.; Razzari, Luca; Peccianti, Marco; Morandotti, Roberto; Cheben, Pavel; Janz, Siegfried; Xu, D.‐X.; Little, Brent E.; Chu, Sai T.; Moss, David

doi:10.1364/oe.17.014098

Cited by 144 publications

(100 citation statements)

References 26 publications

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“…Hydex waveguides have been engineered to yield anomalous dispersion over most of the C-band with the zero-GVD points being 1600 nm for a TE polarization and 1560 nm for TM [76]. This resulted in a large FWM wavelength tuning range with an efficient parametric gain of +15dB and a signal to idler conversion efficiency of +16.5dB [74].…”

Section: Hydex Waveguidesmentioning

confidence: 99%

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New CMOS-compatible platforms based on silicon nitride and Hydex for nonlinear optics

et al. 2013

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Section: Hydex Waveguidesmentioning

confidence: 99%

“…Nonlinear parameters for CMOS compatible optical platforms a-Si [127] c-Si [2,47] SiN [55][56][57] Hydex [63,76] [55,56]. The nanowire dimensions are 500nm thick by 1 µm wide.…”

Section: Table Imentioning

confidence: 99%

New CMOS-compatible platforms based on silicon nitride and Hydex for nonlinear optics

et al. 2013

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“…The dispersion is small and anomalous, guaranteeing a large four-wave mixing (FWM) gain bandwidth at telecom wavelengths. The input and output bus waveguides are pigtailed to standard single mode fibers, resulting in coupling losses of <1.5 dB per facet (more details can be found in [28,29]). The ring resonator has resonances that are aligned to the ITU grid on a 200 GHz spacing.…”

Section: Self-locked Pumping Scheme and Experimental Setupmentioning

confidence: 99%

Integrated frequency comb source of heralded single photons

Reimer

Caspani

Clerici³

et al. 2014

Opt. Express

266

211

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Abstract:We report an integrated photon pair source based on a CMOScompatible microring resonator that generates multiple, simultaneous, and independent photon pairs at different wavelengths in a frequency comb compatible with fiber communication wavelength division multiplexing channels (200 GHz channel separation) and with a linewidth that is compatible with quantum memories (110 MHz). It operates in a self-locked pump configuration, avoiding the need for active stabilization, making it extremely robust even at very low power levels. References and links

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“…Device patterning and fabrication were performed using photolithography and reactive ion etching to produce low sidewall roughness on the core layer, before over-coating with a silica glass upper cladding layer. The resulting waveguide possesses a high effective nonlinearity (220W -1 km -1 ) due to a combination of tight mode confinement and high intrinsic n 2 , as well as a small and anomalous dispersion [26], and has very low linear (<6dB/m) and negligible nonlinear optical losses (up to 25GW/cm 2 ) [25,26]. This platform has shown excellent FWM performance -both in terms of conversion efficiency and bandwidth -with no appreciable gain saturation [28].…”

Section: Devicementioning

confidence: 99%

“…Our approach maintains the relative roles of the signal, the (external) pump and the idler that exist in the classical TWM implementation. The nonlinear optical component in our work is a 45-cm long spiral waveguide implemented in a high index, CMOS compatible, doped silica glass platform [25][26][27][28] (see Methods for details). The high nonlinear response exhibited by these waveguides [27,28] allows efficient wavelength conversion [25,26,28] throughout its anomalous dispersion regime, spanning from 1300nm to 1600nm [26].…”

mentioning

confidence: 99%