Mass-transport and conventional buying techniques were combined to fabricate narrow active stripe lasers. Lowest threshold current of 9.6 mA was obtained under CW operation for the active layer width of 1µm in 1.5 µm wavelength region. The maximum light output power and differential quantum efficiency were 10.6 mW and 17 percent/facet, respectively. With this structure, complete single transverse mode operation was achieved both for Fabry-Perot (FP) type and bundle-integrated-guide distributed Bragg reflecter (BIB-DBR) type lasers.
Sekartedjo KOENTJORO
Katare Gopalrao RAVIKUMAR
Kazuhiko SHIMOMURA
Kazuhiro KOMORI
Shigehisa ARAI
Yasuharu SUEMATSU
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Sekartedjo KOENTJORO, Katare Gopalrao RAVIKUMAR, Kazuhiko SHIMOMURA, Kazuhiro KOMORI, Shigehisa ARAI, Yasuharu SUEMATSU, "Mass Transport Buried Heterostructure Laser Using p-InP Substrate" in IEICE TRANSACTIONS on transactions,
vol. E69-E, no. 9, pp. 920-922, September 1986, doi: .
Abstract: Mass-transport and conventional buying techniques were combined to fabricate narrow active stripe lasers. Lowest threshold current of 9.6 mA was obtained under CW operation for the active layer width of 1µm in 1.5 µm wavelength region. The maximum light output power and differential quantum efficiency were 10.6 mW and 17 percent/facet, respectively. With this structure, complete single transverse mode operation was achieved both for Fabry-Perot (FP) type and bundle-integrated-guide distributed Bragg reflecter (BIB-DBR) type lasers.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e69-e_9_920/_p
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@ARTICLE{e69-e_9_920,
author={Sekartedjo KOENTJORO, Katare Gopalrao RAVIKUMAR, Kazuhiko SHIMOMURA, Kazuhiro KOMORI, Shigehisa ARAI, Yasuharu SUEMATSU, },
journal={IEICE TRANSACTIONS on transactions},
title={Mass Transport Buried Heterostructure Laser Using p-InP Substrate},
year={1986},
volume={E69-E},
number={9},
pages={920-922},
abstract={Mass-transport and conventional buying techniques were combined to fabricate narrow active stripe lasers. Lowest threshold current of 9.6 mA was obtained under CW operation for the active layer width of 1µm in 1.5 µm wavelength region. The maximum light output power and differential quantum efficiency were 10.6 mW and 17 percent/facet, respectively. With this structure, complete single transverse mode operation was achieved both for Fabry-Perot (FP) type and bundle-integrated-guide distributed Bragg reflecter (BIB-DBR) type lasers.},
keywords={},
doi={},
ISSN={},
month={September},}
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TY - JOUR
TI - Mass Transport Buried Heterostructure Laser Using p-InP Substrate
T2 - IEICE TRANSACTIONS on transactions
SP - 920
EP - 922
AU - Sekartedjo KOENTJORO
AU - Katare Gopalrao RAVIKUMAR
AU - Kazuhiko SHIMOMURA
AU - Kazuhiro KOMORI
AU - Shigehisa ARAI
AU - Yasuharu SUEMATSU
PY - 1986
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E69-E
IS - 9
JA - IEICE TRANSACTIONS on transactions
Y1 - September 1986
AB - Mass-transport and conventional buying techniques were combined to fabricate narrow active stripe lasers. Lowest threshold current of 9.6 mA was obtained under CW operation for the active layer width of 1µm in 1.5 µm wavelength region. The maximum light output power and differential quantum efficiency were 10.6 mW and 17 percent/facet, respectively. With this structure, complete single transverse mode operation was achieved both for Fabry-Perot (FP) type and bundle-integrated-guide distributed Bragg reflecter (BIB-DBR) type lasers.
ER -