Selective-area high-quality germanium growth for monolithic integrated optoelectronics

Hyun Yong Yu; Jin Hong Park; Ali K. Okyay; Krishna C. Saraswat

doi:10.1109/LED.2011.2181814

Selective-area high-quality germanium growth for monolithic integrated optoelectronics

Hyun Yong Yu
, Jin Hong Park
, Ali K. Okyay
, Krishna C. Saraswat

Department of Electronic and Electrical Engineering

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

20 Scopus citations

Abstract

Selective-area germanium (Ge) layer on silicon (Si) is desired to realize the advanced Ge devices integrated with Si very-large-scale-integration (VLSI) components. We demonstrate the area-dependent high-quality Ge growth on Si substrate through SiO ₂ windows. The combination of area-dependent growth and multistep deposition/hydrogen annealing cycles has effectively reduced the surface roughness and the threading dislocation density. Low root-mean-square surface roughness of 0.6 nm is confirmed by atomic-force-microscope analysis. Low defect density in the area-dependent grown Ge layer is measured to be as low as 1 × 10 ⁷cm ^-2 by plan-view transmission-electron-miscroscope analysis. In addition, the excellent metal-semiconductor-metal photodiode characteristics are shown on the grown Ge layer to open up a possibility to merge Ge optoelectronics with Si VLSI.

Original language	English
Article number	6163345
Pages (from-to)	579-581
Number of pages	3
Journal	IEEE Electron Device Letters
Volume	33
Issue number	4
DOIs	https://doi.org/10.1109/LED.2011.2181814
State	Published - Apr 2012

Keywords

Area dependent
germanium
monolithic
optoelectronics

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10.1109/LED.2011.2181814

Cite this

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title = "Selective-area high-quality germanium growth for monolithic integrated optoelectronics",

abstract = "Selective-area germanium (Ge) layer on silicon (Si) is desired to realize the advanced Ge devices integrated with Si very-large-scale-integration (VLSI) components. We demonstrate the area-dependent high-quality Ge growth on Si substrate through SiO 2 windows. The combination of area-dependent growth and multistep deposition/hydrogen annealing cycles has effectively reduced the surface roughness and the threading dislocation density. Low root-mean-square surface roughness of 0.6 nm is confirmed by atomic-force-microscope analysis. Low defect density in the area-dependent grown Ge layer is measured to be as low as 1 × 10 7cm -2 by plan-view transmission-electron-miscroscope analysis. In addition, the excellent metal-semiconductor-metal photodiode characteristics are shown on the grown Ge layer to open up a possibility to merge Ge optoelectronics with Si VLSI.",

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doi = "10.1109/LED.2011.2181814",

language = "English",

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AU - Yu, Hyun Yong

AU - Park, Jin Hong

AU - Okyay, Ali K.

AU - Saraswat, Krishna C.

PY - 2012/4

Y1 - 2012/4

N2 - Selective-area germanium (Ge) layer on silicon (Si) is desired to realize the advanced Ge devices integrated with Si very-large-scale-integration (VLSI) components. We demonstrate the area-dependent high-quality Ge growth on Si substrate through SiO 2 windows. The combination of area-dependent growth and multistep deposition/hydrogen annealing cycles has effectively reduced the surface roughness and the threading dislocation density. Low root-mean-square surface roughness of 0.6 nm is confirmed by atomic-force-microscope analysis. Low defect density in the area-dependent grown Ge layer is measured to be as low as 1 × 10 7cm -2 by plan-view transmission-electron-miscroscope analysis. In addition, the excellent metal-semiconductor-metal photodiode characteristics are shown on the grown Ge layer to open up a possibility to merge Ge optoelectronics with Si VLSI.

AB - Selective-area germanium (Ge) layer on silicon (Si) is desired to realize the advanced Ge devices integrated with Si very-large-scale-integration (VLSI) components. We demonstrate the area-dependent high-quality Ge growth on Si substrate through SiO 2 windows. The combination of area-dependent growth and multistep deposition/hydrogen annealing cycles has effectively reduced the surface roughness and the threading dislocation density. Low root-mean-square surface roughness of 0.6 nm is confirmed by atomic-force-microscope analysis. Low defect density in the area-dependent grown Ge layer is measured to be as low as 1 × 10 7cm -2 by plan-view transmission-electron-miscroscope analysis. In addition, the excellent metal-semiconductor-metal photodiode characteristics are shown on the grown Ge layer to open up a possibility to merge Ge optoelectronics with Si VLSI.

KW - Area dependent

KW - germanium

KW - monolithic

KW - optoelectronics

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DO - 10.1109/LED.2011.2181814

M3 - Article

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JO - IEEE Electron Device Letters

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Selective-area high-quality germanium growth for monolithic integrated optoelectronics

Abstract

Keywords

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