The 79th JSAP Autumn Meeting, 2018

Presentation information

Oral presentation

4 JSAP-OSA Joint Symposia 2018 » 4.2 Photonics Devices, Photonic Integrated Circuit and Silicon Phonics

[21p-211B-1~9] 4.2 Photonics Devices, Photonic Integrated Circuit and Silicon Phonics

Fri. Sep 21, 2018 1:15 PM - 4:15 PM 211B (211-2)

Yasutomo Ota(Univ. of Tokyo), Nobuhiko Nishiyama(Tokyo Tech)

2:45 PM - 3:15 PM

[21p-211B-5] [INVITED] InAs/GaAs Quantum Dot Laser Directly Grown on Si

Jinkwan Kwoen1, BONGYONG JANG1, TAKEO KAGEYAMA1, KATSUYUKI WATANABE1, YASUHIKO ARAKAWA1 (1.NanoQuine, U. Tokyo)

Keywords:quantum dot laser, molecular beam epitaxy, heteroepitaxy

Laser devices for silicon photonics are expected to be used in an integrated environment near CMOS devices. For this reason, quantum dot (QD) laser with excellent thermal properties has been considered a strong candidate for Si pho- tonics light source. In the meantime, direct growth of QD lasers on Si (001) on-axis substrates is attracting attention due to the possibility of monolithic integration on a CMOS compatible wafer. In previous reports, 5 to 7 layer-stacked dot-in-well (DWELL) structure was used as the active layer and Be doping at QD capping layer was adopted for the high temperature operation. In this work, we report CW operation of an InAs/GaAs QD laser at the world's highest temperature of 101 °C among any III-V lasers grown on Si (001) on-axis substrates. This highest temperature operation was attained by growing of 8 layer-stacked structure without the use Be- doping in the QD capping layers.