A wavelength-selective add-drop switch using silicon microring resonator with a submicron-comb electrostatic actuator

Kazunori Takahashi; Yoshiaki Kanamori; Yasuo Kokubun; Kazuhiro Hane

doi:10.1364/OE.16.014421

A wavelength-selective add-drop switch using silicon microring resonator with a submicron-comb electrostatic actuator

Kazunori Takahashi, Yoshiaki Kanamori, Yasuo Kokubun, Kazuhiro Hane

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

87 Citations (Scopus)

Abstract

Electrostatic comb-drive micro actuator with submicron comb fingers was connected to silicon microring resonator to consist a wavelength-selective add-drop switch at 1.5μm wavelength with variable coupling mechanism. A 500nm wide 260nm thick 63.4μm long silicon microring waveguide was suspended in air with low-loss suspension arms. The air gap between the microring and the input/output waveguides was adjusted by the voltage applied to the comb actuator to vary the coupling efficiency. Transmittance from the input port to a drop port was varied 32.9dB by applying the voltages from 0V to 28.2V. At 28.2V, transmittance from the input port to a through port decreased by 7.83dB from that at 0V, and 55% of the intensity was transmitted to the drop port. The full-width-half-maximum bandwidth of the dropped light was 0.5nm, corresponding to a Q-value of 3150.

Original language	English
Pages (from-to)	14421-14428
Number of pages	8
Journal	Optics Express
Volume	16
Issue number	19
DOIs	https://doi.org/10.1364/OE.16.014421
Publication status	Published - 2008 Sept 15

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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title = "A wavelength-selective add-drop switch using silicon microring resonator with a submicron-comb electrostatic actuator",

abstract = "Electrostatic comb-drive micro actuator with submicron comb fingers was connected to silicon microring resonator to consist a wavelength-selective add-drop switch at 1.5μm wavelength with variable coupling mechanism. A 500nm wide 260nm thick 63.4μm long silicon microring waveguide was suspended in air with low-loss suspension arms. The air gap between the microring and the input/output waveguides was adjusted by the voltage applied to the comb actuator to vary the coupling efficiency. Transmittance from the input port to a drop port was varied 32.9dB by applying the voltages from 0V to 28.2V. At 28.2V, transmittance from the input port to a through port decreased by 7.83dB from that at 0V, and 55% of the intensity was transmitted to the drop port. The full-width-half-maximum bandwidth of the dropped light was 0.5nm, corresponding to a Q-value of 3150.",

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AU - Takahashi, Kazunori

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AU - Hane, Kazuhiro

PY - 2008/9/15

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N2 - Electrostatic comb-drive micro actuator with submicron comb fingers was connected to silicon microring resonator to consist a wavelength-selective add-drop switch at 1.5μm wavelength with variable coupling mechanism. A 500nm wide 260nm thick 63.4μm long silicon microring waveguide was suspended in air with low-loss suspension arms. The air gap between the microring and the input/output waveguides was adjusted by the voltage applied to the comb actuator to vary the coupling efficiency. Transmittance from the input port to a drop port was varied 32.9dB by applying the voltages from 0V to 28.2V. At 28.2V, transmittance from the input port to a through port decreased by 7.83dB from that at 0V, and 55% of the intensity was transmitted to the drop port. The full-width-half-maximum bandwidth of the dropped light was 0.5nm, corresponding to a Q-value of 3150.

AB - Electrostatic comb-drive micro actuator with submicron comb fingers was connected to silicon microring resonator to consist a wavelength-selective add-drop switch at 1.5μm wavelength with variable coupling mechanism. A 500nm wide 260nm thick 63.4μm long silicon microring waveguide was suspended in air with low-loss suspension arms. The air gap between the microring and the input/output waveguides was adjusted by the voltage applied to the comb actuator to vary the coupling efficiency. Transmittance from the input port to a drop port was varied 32.9dB by applying the voltages from 0V to 28.2V. At 28.2V, transmittance from the input port to a through port decreased by 7.83dB from that at 0V, and 55% of the intensity was transmitted to the drop port. The full-width-half-maximum bandwidth of the dropped light was 0.5nm, corresponding to a Q-value of 3150.

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A wavelength-selective add-drop switch using silicon microring resonator with a submicron-comb electrostatic actuator

Abstract

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