High performance, waveguide integrated Ge photodetectors

Ahn, Donghwan; Hong, Ching-yin; Liu, Jifeng; Giziewicz, Wojciech; Beals, Mark; Kimerling, Lionel C.; Michel, Jürgen; Chen, Jian; Kärtner, Franz X.

doi:10.1364/oe.15.003916

Cited by 446 publications

(226 citation statements)

References 12 publications

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“…These properties make Ge one of the most promising materials for CMOS compatible photonic components including near-infra-red photodetectors [1][2][3][4] and, possibly, lasers [5][6][7] in the important spectral region of 1.3-1.6 lm. However, it is well known that conventional Ge heteroepitaxy on Si is complicated by the 4.2% difference in Ge and Si lattice constants.…”

Section: Introductionmentioning

confidence: 99%

Structural and optical properties of axial silicon-germanium nanowire heterojunctions

Wang

Tsybeskov

Kamins

et al. 2015

Journal of Applied Physics

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Section: Introductionmentioning

confidence: 99%

Structural and optical properties of axial silicon-germanium nanowire heterojunctions

Wang

Tsybeskov

Kamins

et al. 2015

Journal of Applied Physics

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“…This has fueled significant research and development work in this area in the past few years. [1][2][3][4][5][6][7][8][9][10][11] Many silicon-based active photonics components, such as high-speed modulators and Ge photodetectors [4][5][6][7][8][9][10] have been demonstrated on submicron waveguides. However, submicron SOI waveguides still suffer from high fiber coupling loss, high polarization dependent loss, and large waveguide birefringence and phase noise.…”

mentioning

confidence: 99%

High-speed Ge photodetector monolithically integrated with large cross-section silicon-on-insulator waveguide

Feng¹,

Liao²,

Dong³

et al. 2009

Applied Physics Letters

185

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We demonstrate a compact, high speed Ge photodetector efficiently butt-coupled with a large cross-section silicon-on-insulate (SOI) waveguide in which the Ge p-i-n junction is placed in the horizontal direction to enable very high speed operation. The demonstrated photodetector has an active area of only 0.8×10 μm2, greater than 32 GHz optical bandwidth, and a responsivity of 1.1 A/W at a wavelength of 1550 nm. Very importantly the device can readily be integrated with high performance wavelength-division-multiplexing filters based on large cross-section SOI waveguide to form monolithic integrated silicon photonics receivers for multichannel terabit data transmission applications.

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“…Ge-on-Si photodetector is an example of a monolithically integrated component ( Figure 13) [145]. Here, Si behaves as the waveguide that is interfaced to a Ge optical detector.…”

Section: Monolithic Integrationmentioning

confidence: 99%

Low-Temperature Bonding for Silicon-Based Micro-Optical Systems

Howlader

Deen

2015

Photonics

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Abstract:Silicon-based integrated systems are actively pursued for sensing and imaging applications. A major challenge to realize highly sensitive systems is the integration of electronic, optical, mechanical and fluidic, all on a common platform. Further, the interface quality between the tiny optoelectronic structures and the substrate for alignment and coupling of the signals significantly impacts the system's performance. These systems also have to be low-cost, densely integrated and compatible with current and future mainstream technologies for electronic-photonic integration. To address these issues, proper selection of the fabrication, integration and assembly technologies is needed. In this paper, wafer level bonding with advanced features such as surface activation and passive alignment for vertical electrical interconnections are identified as candidate technologies to integrate different electronics, optical and photonic components. Surface activated bonding, superior to other assembly methods, enables low-temperature nanoscaled component integration with high alignment accuracy, low electrical loss and high transparency of the interface. These features are preferred for the hybrid integration of silicon-based micro-opto-electronic systems. In future, new materials and assembly technologies may emerge to enhance the performance of these micro systems and reduce their cost. The article is a detailed review of bonding techniques for electronic, optical and photonic components in silicon-based systems.

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High performance, waveguide integrated Ge photodetectors

Cited by 446 publications

References 12 publications

Structural and optical properties of axial silicon-germanium nanowire heterojunctions

Structural and optical properties of axial silicon-germanium nanowire heterojunctions

High-speed Ge photodetector monolithically integrated with large cross-section silicon-on-insulator waveguide

Low-Temperature Bonding for Silicon-Based Micro-Optical Systems

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