Electrically injected GeSn lasers on Si operating up to 100 K

Yiyin Zhou; Yuanhao Miao; Solomon Ojo; Huong Tran; Grey Abernathy; Joshua M. Grant; Sylvester Amoah; Gregory Salamo; Wei Du; Jifeng Liu; Joe Margetis; John Tolle; Yong Hang Zhang; Greg Sun; Richard A. Soref; Baohua Li; Shui Qing Yu

doi:10.1364/OPTICA.395687

Electrically injected GeSn lasers on Si operating up to 100 K

Yiyin Zhou, Yuanhao Miao, Solomon Ojo, Huong Tran, Grey Abernathy, Joshua M. Grant, Sylvester Amoah, Gregory Salamo, Wei Du, Jifeng Liu, Joe Margetis, John Tolle, Yong Hang Zhang, Greg Sun, Richard A. Soref, Baohua Li, Shui Qing Yu

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

128 Scopus citations

Abstract

Monolithic lasers on Si have long been anticipated as an enabler of full photonic integration, and significant progress in GeSn material development shows promise for such laser devices. While there are many reports focused on optically pumped lasers, in this work, we demonstrate electrically injectedGeSn lasers on Si.We grew aGeSn/SiGeSn heterostructure diode on a Si substrate in a ridge waveguide laser device and tested it under pulsed conditions, giving consideration to the structure design to enhance the carrier and optical confinement. The peak linewidth of 0.13 nm (0.06 meV) and injection current curves indicated lasing, which was observed up to 100Kwith emission peaks at 2300 nm.We recorded a threshold of 598 A=cm2 at 10 K. The peak power and external quantum efficiency were 2.7 mW/facet and 0.3%, respectively. The results indicate advances for group-IV-based lasers, which could serve as a promising route for laser integration on Si.

Original language	English (US)
Pages (from-to)	924-928
Number of pages	5
Journal	Optica
Volume	7
Issue number	8
DOIs	https://doi.org/10.1364/OPTICA.395687
State	Published - Aug 2020

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics

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title = "Electrically injected GeSn lasers on Si operating up to 100 K",

abstract = "Monolithic lasers on Si have long been anticipated as an enabler of full photonic integration, and significant progress in GeSn material development shows promise for such laser devices. While there are many reports focused on optically pumped lasers, in this work, we demonstrate electrically injectedGeSn lasers on Si.We grew aGeSn/SiGeSn heterostructure diode on a Si substrate in a ridge waveguide laser device and tested it under pulsed conditions, giving consideration to the structure design to enhance the carrier and optical confinement. The peak linewidth of 0.13 nm (0.06 meV) and injection current curves indicated lasing, which was observed up to 100Kwith emission peaks at 2300 nm.We recorded a threshold of 598 A=cm2 at 10 K. The peak power and external quantum efficiency were 2.7 mW/facet and 0.3%, respectively. The results indicate advances for group-IV-based lasers, which could serve as a promising route for laser integration on Si.",

author = "Yiyin Zhou and Yuanhao Miao and Solomon Ojo and Huong Tran and Grey Abernathy and Grant, {Joshua M.} and Sylvester Amoah and Gregory Salamo and Wei Du and Jifeng Liu and Joe Margetis and John Tolle and Zhang, {Yong Hang} and Greg Sun and Soref, {Richard A.} and Baohua Li and Yu, {Shui Qing}",

note = "Publisher Copyright: {\textcopyright}2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.",

year = "2020",

month = aug,

doi = "10.1364/OPTICA.395687",

language = "English (US)",

volume = "7",

pages = "924--928",

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T1 - Electrically injected GeSn lasers on Si operating up to 100 K

AU - Zhou, Yiyin

AU - Miao, Yuanhao

AU - Ojo, Solomon

AU - Tran, Huong

AU - Abernathy, Grey

AU - Grant, Joshua M.

AU - Amoah, Sylvester

AU - Salamo, Gregory

AU - Du, Wei

AU - Liu, Jifeng

AU - Margetis, Joe

AU - Tolle, John

AU - Zhang, Yong Hang

AU - Sun, Greg

AU - Soref, Richard A.

AU - Li, Baohua

AU - Yu, Shui Qing

PY - 2020/8

Y1 - 2020/8

N2 - Monolithic lasers on Si have long been anticipated as an enabler of full photonic integration, and significant progress in GeSn material development shows promise for such laser devices. While there are many reports focused on optically pumped lasers, in this work, we demonstrate electrically injectedGeSn lasers on Si.We grew aGeSn/SiGeSn heterostructure diode on a Si substrate in a ridge waveguide laser device and tested it under pulsed conditions, giving consideration to the structure design to enhance the carrier and optical confinement. The peak linewidth of 0.13 nm (0.06 meV) and injection current curves indicated lasing, which was observed up to 100Kwith emission peaks at 2300 nm.We recorded a threshold of 598 A=cm2 at 10 K. The peak power and external quantum efficiency were 2.7 mW/facet and 0.3%, respectively. The results indicate advances for group-IV-based lasers, which could serve as a promising route for laser integration on Si.

AB - Monolithic lasers on Si have long been anticipated as an enabler of full photonic integration, and significant progress in GeSn material development shows promise for such laser devices. While there are many reports focused on optically pumped lasers, in this work, we demonstrate electrically injectedGeSn lasers on Si.We grew aGeSn/SiGeSn heterostructure diode on a Si substrate in a ridge waveguide laser device and tested it under pulsed conditions, giving consideration to the structure design to enhance the carrier and optical confinement. The peak linewidth of 0.13 nm (0.06 meV) and injection current curves indicated lasing, which was observed up to 100Kwith emission peaks at 2300 nm.We recorded a threshold of 598 A=cm2 at 10 K. The peak power and external quantum efficiency were 2.7 mW/facet and 0.3%, respectively. The results indicate advances for group-IV-based lasers, which could serve as a promising route for laser integration on Si.

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Electrically injected GeSn lasers on Si operating up to 100 K

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ASJC Scopus subject areas

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