Your search keyword '"Lee, Bing-Ju"' showing total 2 results

1. The amazing world of self-organized Ge quantum dots for Si photonics on SiN platforms.

Author

Hong, Po-Yu, Lin, Chin-Hsuan, Wang, I.-Hsiang, Chiu, Yu-Ju, Lee, Bing-Ju, Kao, Jiun-Chi, Huang, Chun-Hao, Lin, Horng-Chih, George, Thomas, and Li, Pei-Wen

Subjects

QUANTUM dots, PHOTONICS, LIGHT emitting diodes, GERMANIUM, PHOTODETECTORS

Abstract

Beginning with our exciting discovery of germanium (Ge) spherical quantum-dot (QD) formation via the peculiar and symbiotic interactions of Si, Ge, and O interstitials, we have embarked on a journey of vigorous exploration, creating unique configurations of self-organized Ge-QDs/Si-containing layers. Our aim is to generate advanced Ge-QD photonic devices, while using standard, mainstream Si processing techniques. This paper summarizes our portfolio of innovative Ge-QD configurations. With emphasis on both controllability and repeatability, we have fabricated size-tunable, spherical Ge-QDs that are placed at predetermined spatial locations within Si-containing layers (SiO2, Si3N4, and Si) using a coordinated combination of lithographic patterning and self-assembled growth. We have successfully exploited the multi-dimensional, parameter spaces of process conditions in combination with layout designs to achieve exquisite control available through the thermal oxidation of lithographically patterned, poly-Si1 − xGex structures in close proximity with Si3N4/Si layers. In so doing, we have gained insight into the growth kinetics and formation mechanisms of self-organized, Ge spherical QDs embedded within SiO2, Si3N4, and Si layers, respectively. Our Ge-QD configurations have opened up a myriad of process/integration possibilities including top-to-bottom evanescent-wave coupling structures for SiN-waveguided Ge-QD photodetectors and Ge-QD light emitters for Si photonics within Si3N4 integrated photonics platforms for on-chip interconnects and sensing. [ABSTRACT FROM AUTHOR]

Published

2023

2. Correction: The amazing world of self-organized Ge quantum dots for Si photonics on SiN platforms.

Author

Hong, Po-Yu, Lin, Chin-Hsuan, Wang, I.-Hsiang, Chiu, Yu-Ju, Lee, Bing-Ju, Kao, Jiun-Chi, Huang, Chun-Hao, Lin, Horng-Chih, George, Thomas, and Li, Pei-Wen

Subjects

PHOTONICS, LIGHT emitting diodes, LIGHT sources, ABSORPTION coefficients, QUANTUM dots

Abstract

Moreover, at the end of third paragraph in "4.1 SiN-embedded Ge-QD microdisk light emitters", unnecessary "Ge QD SiN silicon oxide air" has been remained. Thanks to the high absorption coefficients and pseudo-direct band-gap properties of Ge near the C-band communication wavelengths, active photonic devices (light sources and photodetectors) in Si PICs are enabled [2, 3] with small form factors on 2-D silicon-on-insulator (SOI) platforms. [Extracted from the article]

Published

2023