Tiếng Việt

The semiconductor Institute has made progress in the study of high power and low noise quantum dot DFB single-mode lasers

906
2023-09-05 15:38:36
Xem bản dịch

Recently, the team of Yang Tao-Yang Xiaoguang, a researcher at the Key Laboratory of Materials Science of the Institute of Semiconductors of the Chinese Academy of Sciences, and Lu Dan, a researcher, together with Ji Chen, a professor at the Zhijiang Laboratory of Zhejiang University, have made important progress in the research of high-power, low-noise quantum dot DFB single-mode lasers.

Distributed feedback (DFB) lasers are compact and dynamic single-mode, and are the core light sources for applications such as high-speed optical communication, large-scale photon integration, liDAR and microwave photonics. 

In particular, the field of artificial intelligence represented by ChatGPT shows an explosion trend, which urgently needs optical computing chips with high computing power, high integration and low power consumption as physical support, and puts forward higher requirements for the temperature stability, high temperature operating characteristics, optical feedback stability, single mode quality, and volume cost of the core light source.

By using a high density, low defect laminated InAs/GaAs quantum dot structure as the active region and a low loss lateral coupling grating as an efficient mode selection structure, the team developed a high-performance O-band quantum dot DFB laser with high power, high stability, low noise and anti-feedback in a wide temperature region. In the range of 25-85 °C, the output power of the laser is greater than 100 mW, and the maximum edge mode rejection ratio is more than 62 dB. The lowest white noise level is only 515 Hz2 Hz-1, and the corresponding intrinsic line width is as low as 1.62 kHz. The minimum average RIN is only -166 dB/Hz (0.1-20 GHz). 

In addition, the anti-optical feedback threshold of the laser is as high as -8 dB, which meets the technical standards for stable operation without external optical isolators. The device has excellent comprehensive performance, low cost and small size, and has a large-scale application prospect in the fields of large-capacity optical communication, high-speed on-chip optical interconnection, high-precision detection, etc.

The relevant research results are as follows: High-Power, Narrow-Linewidth, and Low-Noise Quantum Dot Distributed Feedback Lasers. Published in Laser & Photonics Reviews. The research work is supported by the National key research and development Plan and the National Natural Science Foundation.

Figure 1. Morphology and fluorescence characteristics of quantum dot materials, as well as device and grating structures

Figure 2. Output characteristics, spectral characteristics, optical frequency noise characteristics and spectral stability under external optical feedback of the device

Paper link: https://doi.org/10.1002/lpor.202200979

Source: Semiconductor Research Institute

Đề xuất liên quan
  • APE 2025 is about to take place

    The Asia Optoelectronic Expo 2025 (APE 2025) will be held from February 26 to 28, 2025 at the Marina Bay Sands Convention and Exhibition Centre in Singapore. It covers products such as information and communication, optics, lasers, infrared, sensing, display, quantum, and is a one-stop optoelectronic comprehensive platform for the optoelectronic industry and application fields; The exhibition focu...

    02-18
    Xem bản dịch
  • Scientists have made breakthrough progress in using laser to cool sound waves

    A group of researchers from the Max Planck Institute of Optoelectronics has made a significant breakthrough in using laser cooling to travel sound waves. This development brings us one step closer to the quantum ground state of sound in waveguides, which is of great significance for quantum communication systems and future quantum technology.By using laser cooling, scientists can significantly red...

    2024-01-22
    Xem bản dịch
  • Reverse Modeling of 3D Scanning Reading in Hong Kong: Production Innovation in the Digital Era

    In the wave of the digital age, Hong Kong, as an international business center, constantly explores the application of new technologies in the manufacturing industry. Among them, 3D scanning and reverse modeling technology is emerging, bringing a new production innovation to the manufacturing industry. This article will explore the application of 3D scanning and reverse modeling in Hong Kong, as w...

    2024-03-30
    Xem bản dịch
  • Seyond plans to land on the Hong Kong Stock Exchange in De SPAC mode

    Recently, TechStar Acquisition Corporation (07855. HK), a special purpose acquisition company, announced that Seyond, the successor company of the special purpose acquisition transaction, has submitted a new listing application. Seyond plans to land on the Hong Kong Stock Exchange under the De SPAC model. This means that Seyond is only one step away from going public through a backdoor listing. If...

    02-14
    Xem bản dịch
  • What are the "unique secrets" of each family in terms of breaking the game and high reaction materials?

    Laser is considered a sharp sword that cuts iron like mud, but even sharper swords can have tricky moments. For example, in certain scenarios, there are materials with higher reflectivity, such as silver, copper, etc., known as "high reflection materials". High reflective materials have a low absorption rate for lasers, making them difficult to process and potentially causing equipment failure or ...

    2023-11-06
    Xem bản dịch