Kerr frequency combs in large-size, ultra-high-Q toroid microcavities with low repetition rates [Invited]

Jiyang Ma; Xiaoshun Jiang; Min Xiao

doi:10.1364/PRJ.5.000B54

Journals >Photonics Research >Volume 5 >Issue 6 >Page B54 > Article

Photonics Research
Vol. 5, Issue 6, B54 (2017)

Kerr frequency combs in large-size, ultra-high-Q toroid microcavities with low repetition rates [Invited]

Jiyang Ma¹, Xiaoshun Jiang^1,*, and Min Xiao^1,2

Author Affiliations

¹National Laboratory of Solid State Microstructures, College of Engineering and Applied Sciences, and School of Physics, Nanjing University 210093, China

²Department of Physics, University of Arkansas, Fayetteville, Arkansas 72701, USA

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DOI: 10.1364/PRJ.5.000B54 Cite this Article Set citation alerts

Jiyang Ma, Xiaoshun Jiang, Min Xiao, "Kerr frequency combs in large-size, ultra-high-Q toroid microcavities with low repetition rates [Invited]," Photonics Res. 5, B54 (2017) Copy Citation Text

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Abstract

By overcoming fabrication limitations, we have successfully fabricated silica toroid microcavities with both large diameter (of 1.88 mm) and ultra-high-Q factor (of 3.3×108) for the first time, to the best of our knowledge. By employing these resonators, we have further demonstrated low-threshold Kerr frequency combs on a silicon chip, which allow us to obtain a repetition rate as low as 36 GHz. Such a low repetition rate frequency comb can now be directly measured through a commercialized optical-electronic detector.

Keywords

(190.4380) Nonlinear optics (190.4390) Nonlinear optics four-wave mixing.integrated optics (140.3945) Microcavities

Δ FSR = (ν_{m + 1} - ν_{m}) - (ν_{m} - ν_{m - 1}) = ν_{m + 1} + ν_{m - 1} - 2 ν_{m} .

(1)

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D \approx \frac{Δ FSR \times 4 π^{2} n^{3} R^{2}}{c^{2} λ^{2}},

(2)

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P_{th} = \frac{V_{0} n_{0}^{2} ω}{8 n_{2} c η Q^{2}},

(3)

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Jiyang Ma, Xiaoshun Jiang, Min Xiao, "Kerr frequency combs in large-size, ultra-high-Q toroid microcavities with low repetition rates [Invited]," Photonics Res. 5, B54 (2017)

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