Experimental investigation of thermo-optic effects in SiC and Si photonic crystal nanocavities

Shota Yamada; Bong Shik Song; Takashi Asano; Susumu Noda

doi:10.1364/OL.36.003981

Experimental investigation of thermo-optic effects in SiC and Si photonic crystal nanocavities

Shota Yamada, Bong Shik Song, Takashi Asano, Susumu Noda

Department of Electronic and Electrical Engineering

Kyoto University

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

34 Scopus citations

Abstract

We experimentally investigate and compare the thermo-optic effects of silicon carbide (SiC) and silicon (Si) photonic crystal nanocavities on their resonant wavelengths over a temperature range of 25 °C to nearly 200 °C by using a laser source with a wavelength close to the telecommunication wavelength range of 1550nm. The measured results clearly show that the shift in the resonant wavelength of the SiC cavity is significantly (by a factor of 3) less than that of the Si cavity for the same ambient temperature changes. In addition, the measured results provide direct estimates of the thermo-optic coefficients (dn=dT) for thin SiC and Si as 3:87 × 10^-5=°C and 1:60 × 10^-4=°C, respectively, for this temperature range.

Original language	English
Pages (from-to)	3981-3983
Number of pages	3
Journal	Optics Letters
Volume	36
Issue number	20
DOIs	https://doi.org/10.1364/OL.36.003981
State	Published - 15 Oct 2011

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abstract = "We experimentally investigate and compare the thermo-optic effects of silicon carbide (SiC) and silicon (Si) photonic crystal nanocavities on their resonant wavelengths over a temperature range of 25 °C to nearly 200 °C by using a laser source with a wavelength close to the telecommunication wavelength range of 1550nm. The measured results clearly show that the shift in the resonant wavelength of the SiC cavity is significantly (by a factor of 3) less than that of the Si cavity for the same ambient temperature changes. In addition, the measured results provide direct estimates of the thermo-optic coefficients (dn=dT) for thin SiC and Si as 3:87 × 10-5=°C and 1:60 × 10-4=°C, respectively, for this temperature range.",

author = "Shota Yamada and Song, \{Bong Shik\} and Takashi Asano and Susumu Noda",

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T1 - Experimental investigation of thermo-optic effects in SiC and Si photonic crystal nanocavities

AU - Yamada, Shota

AU - Song, Bong Shik

AU - Asano, Takashi

AU - Noda, Susumu

PY - 2011/10/15

Y1 - 2011/10/15

N2 - We experimentally investigate and compare the thermo-optic effects of silicon carbide (SiC) and silicon (Si) photonic crystal nanocavities on their resonant wavelengths over a temperature range of 25 °C to nearly 200 °C by using a laser source with a wavelength close to the telecommunication wavelength range of 1550nm. The measured results clearly show that the shift in the resonant wavelength of the SiC cavity is significantly (by a factor of 3) less than that of the Si cavity for the same ambient temperature changes. In addition, the measured results provide direct estimates of the thermo-optic coefficients (dn=dT) for thin SiC and Si as 3:87 × 10-5=°C and 1:60 × 10-4=°C, respectively, for this temperature range.

AB - We experimentally investigate and compare the thermo-optic effects of silicon carbide (SiC) and silicon (Si) photonic crystal nanocavities on their resonant wavelengths over a temperature range of 25 °C to nearly 200 °C by using a laser source with a wavelength close to the telecommunication wavelength range of 1550nm. The measured results clearly show that the shift in the resonant wavelength of the SiC cavity is significantly (by a factor of 3) less than that of the Si cavity for the same ambient temperature changes. In addition, the measured results provide direct estimates of the thermo-optic coefficients (dn=dT) for thin SiC and Si as 3:87 × 10-5=°C and 1:60 × 10-4=°C, respectively, for this temperature range.

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DO - 10.1364/OL.36.003981

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SP - 3981

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JO - Optics Letters

JF - Optics Letters

IS - 20

ER -

Experimental investigation of thermo-optic effects in SiC and Si photonic crystal nanocavities

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