Directly modulated buried heterostructure DFB laser on SiO2/Si substrate fabricated by regrowth of InP using bonded active layer

Shinji Matsuo; Takuro Fujii; Koichi Hasebe; Koji Takeda; Tomonari Sato; Takaaki Kakitsuka

doi:10.1364/OE.22.012139

Directly modulated buried heterostructure DFB laser on SiO₂/Si substrate fabricated by regrowth of InP using bonded active layer

Shinji Matsuo, Takuro Fujii, Koichi Hasebe, Koji Takeda, Tomonari Sato, Takaaki Kakitsuka

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

129 Citations (Scopus)

Abstract

We describe the growth of InP layer using an ultrathin III-V active layer that is directly bonded to SiO₂/Si substrate to fabricate a buried heterostructure (BH) laser. Using a 250-nm-thick bonded active layer, we succeeded in fabricating a BH distributed feedback (DFB) laser on SiO ₂/Si substrate. The use of a lateral current injection structure is important for forming a p-i-n junction using bonded thin film. The fabricated DFB laser is directly modulated by a 25.8-Gbit/s NRZ signal at 50°C. These results indicate that our fabrication method is a promising way to fabricate highefficiency lasers at a low cost.

Original language	English
Pages (from-to)	12139-12147
Number of pages	9
Journal	Optics Express
Volume	22
Issue number	10
DOIs	https://doi.org/10.1364/OE.22.012139
Publication status	Published - 2014
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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abstract = "We describe the growth of InP layer using an ultrathin III-V active layer that is directly bonded to SiO2/Si substrate to fabricate a buried heterostructure (BH) laser. Using a 250-nm-thick bonded active layer, we succeeded in fabricating a BH distributed feedback (DFB) laser on SiO 2/Si substrate. The use of a lateral current injection structure is important for forming a p-i-n junction using bonded thin film. The fabricated DFB laser is directly modulated by a 25.8-Gbit/s NRZ signal at 50°C. These results indicate that our fabrication method is a promising way to fabricate highefficiency lasers at a low cost.",

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T1 - Directly modulated buried heterostructure DFB laser on SiO2/Si substrate fabricated by regrowth of InP using bonded active layer

AU - Matsuo, Shinji

AU - Fujii, Takuro

AU - Hasebe, Koichi

AU - Takeda, Koji

AU - Sato, Tomonari

AU - Kakitsuka, Takaaki

PY - 2014

Y1 - 2014

N2 - We describe the growth of InP layer using an ultrathin III-V active layer that is directly bonded to SiO2/Si substrate to fabricate a buried heterostructure (BH) laser. Using a 250-nm-thick bonded active layer, we succeeded in fabricating a BH distributed feedback (DFB) laser on SiO 2/Si substrate. The use of a lateral current injection structure is important for forming a p-i-n junction using bonded thin film. The fabricated DFB laser is directly modulated by a 25.8-Gbit/s NRZ signal at 50°C. These results indicate that our fabrication method is a promising way to fabricate highefficiency lasers at a low cost.

AB - We describe the growth of InP layer using an ultrathin III-V active layer that is directly bonded to SiO2/Si substrate to fabricate a buried heterostructure (BH) laser. Using a 250-nm-thick bonded active layer, we succeeded in fabricating a BH distributed feedback (DFB) laser on SiO 2/Si substrate. The use of a lateral current injection structure is important for forming a p-i-n junction using bonded thin film. The fabricated DFB laser is directly modulated by a 25.8-Gbit/s NRZ signal at 50°C. These results indicate that our fabrication method is a promising way to fabricate highefficiency lasers at a low cost.

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Directly modulated buried heterostructure DFB laser on SiO₂/Si substrate fabricated by regrowth of InP using bonded active layer

Abstract

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