High-Q coupled resonances on a PhC waveguide using a tapered nanofiber with high coupling efficiency

Tomohiro Tetsumoto; Yuta Ooka; Tanabe Takasumi

doi:10.1364/OE.23.016256

High-Q coupled resonances on a PhC waveguide using a tapered nanofiber with high coupling efficiency

Tomohiro Tetsumoto, Yuta Ooka, Tanabe Takasumi

Department of Electronics and Electrical Engineering

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

We experimentally demonstrate high-Q cavity formation at an arbitrary position on a silicon photonic crystal waveguide by bringing a tapered nanofiber into contact with the surface of the slab. An ultrahigh Q of 5.1 × 10⁵ is obtained with a coupling efficiency of 39%, whose resonant wavelength can be finely tuned by 27 pm by adjusting the contact length of the nanofiber. We also demonstrate an extremely high coupling efficiency of 99.6% with a loaded Q of 6.1 × 10³. We show that we can obtain a coupled resonances, which has the potential to be used for slow light generation.

Original language	English
Pages (from-to)	16256-16263
Number of pages	8
Journal	Optics Express
Volume	23
Issue number	12
DOIs	https://doi.org/10.1364/OE.23.016256
Publication status	Published - 2015 Jun 15

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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abstract = "We experimentally demonstrate high-Q cavity formation at an arbitrary position on a silicon photonic crystal waveguide by bringing a tapered nanofiber into contact with the surface of the slab. An ultrahigh Q of 5.1 × 105 is obtained with a coupling efficiency of 39%, whose resonant wavelength can be finely tuned by 27 pm by adjusting the contact length of the nanofiber. We also demonstrate an extremely high coupling efficiency of 99.6% with a loaded Q of 6.1 × 103. We show that we can obtain a coupled resonances, which has the potential to be used for slow light generation.",

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AU - Takasumi, Tanabe

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Y1 - 2015/6/15

N2 - We experimentally demonstrate high-Q cavity formation at an arbitrary position on a silicon photonic crystal waveguide by bringing a tapered nanofiber into contact with the surface of the slab. An ultrahigh Q of 5.1 × 105 is obtained with a coupling efficiency of 39%, whose resonant wavelength can be finely tuned by 27 pm by adjusting the contact length of the nanofiber. We also demonstrate an extremely high coupling efficiency of 99.6% with a loaded Q of 6.1 × 103. We show that we can obtain a coupled resonances, which has the potential to be used for slow light generation.

AB - We experimentally demonstrate high-Q cavity formation at an arbitrary position on a silicon photonic crystal waveguide by bringing a tapered nanofiber into contact with the surface of the slab. An ultrahigh Q of 5.1 × 105 is obtained with a coupling efficiency of 39%, whose resonant wavelength can be finely tuned by 27 pm by adjusting the contact length of the nanofiber. We also demonstrate an extremely high coupling efficiency of 99.6% with a loaded Q of 6.1 × 103. We show that we can obtain a coupled resonances, which has the potential to be used for slow light generation.

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High-Q coupled resonances on a PhC waveguide using a tapered nanofiber with high coupling efficiency

Abstract

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