J Sun, J Lin, M Zhou, J Zhang, H Liu, T You… - Light: Science & …, 2024 - nature.com
A reliable, efficient and electrically-pumped Si-based laser is considered as the main challenge to achieve the integration of all key building blocks with silicon photonics. Despite …
2 µm photonics and optoelectronics is promising for potential applications such as optical communications, LiDAR, and chemical sensing. While the research on 2 µm detectors is on …
InAs quantum dashes (Qdash) engineered to emit near 2 μm are envisioned to be promising quantum emitters for next-generation technologies in sensing and communications. In this …
Top-illuminated proof-of-concept indium gallium arsenide (InGaAs) photodiode (PD) array and high speed InGaAs PDs were realized on (001) silicon (Si) substrate by direct …
Semiconductor nanostructures based on quantum dots present the most attractive solutions for achieving high-performance photonic devices. When one or more spatial dimensions of …
RJ Chu, Y Kim, SW Woo, WJ Choi, D Jung - 2023 - s-space.snu.ac.kr
InAs quantum dashes (Qdash) engineered to emit near 2 μm are envisioned to be promising quantum emitters for nextgeneration technologies in sensing and communications. In this …
G Liu, PJ Poole, Z Lu, J Liu, Y Mao… - … Optical Materials and …, 2021 - opg.optica.org
This paper presents the comparison of noise properties of an InAs/InP quantum dash (QDash) and quantum well (QW) mode-locked lasers. By comparing their relative intensity …