Tiếng Việt

The Future of Data Center Communication: Quantum Dot Semiconductor Comb Laser

927
2024-02-21 13:52:09
Xem bản dịch

In the constantly evolving field of technology and data communication, researchers have made significant breakthroughs: developing a continuous wave O-band quantum dot semiconductor comb laser for wavelength division multiplexing optical interconnection. With its impressive performance characteristics, this development is expected to completely change the way we manage and transmit data, especially in demanding environments such as data centers.

According to publications in nature, this groundbreaking laser has an optical bandwidth of 2.2 THz and up to 89 comb wavelengths spaced at 25 GHz intervals. In addition, the laser also has a peak electro-optical power conversion efficiency of over 30% and an available laser power of up to 270 mW. It also demonstrates stable far-field output, with a coupling efficiency of 75% with permanent magnet fibers in butterfly packaging.

This laser is based on a simple two section device with gain and absorber sections. The cracked Fabry Perot laser is coated with high reflectivity near the absorber end and 30 reflectivity at the other end to achieve single-sided output laser. The epitaxial structure has been individually optimized for each laser, while considering that shorter cavities require higher modal gain to overcome radiation losses.

The emergence of quantum dot semiconductor comb lasers is a response to the growing demand for reliable, energy-efficient, and cost-effective optical interconnections. Specifically, it addresses the challenges of computing and exchanging bandwidth in data centers, which are facing increasing pressure due to exponential growth in data generation and processing.

These comb lasers provide eye-catching light sources for parallel WDM optical interconnection, making them a potential solution for short distance communication and computing applications. The unique characteristics of these lasers indicate that they may be key to improving data center speed and efficiency, significantly improving their performance and reducing energy consumption.

This development is just one of the many developments in the fields of photonics and semiconductor technology. For example, significant progress has been made in generating nanosecond pulses in lasers and using Q-switched lasers in scientific research.

In addition, efficient third harmonic generation in lithium niobate waveguides, defect induced photochromism in cadmium glass, and the local electronic structure of double perovskites are just a few exciting topics being explored, such as the Wiley online library.

The future of photonics and semiconductor technology also focuses on the generation of high-order harmonics in solids. This idea is an extension of HHG in gases and is currently being studied as it has the potential to stimulate the development of unique optoelectronics that can operate at the Petahertz frequency, as published in ACS publications.

In summary, the creation of quantum dot semiconductor comb lasers is a game changing development that will have a profound impact on data communication. As research continues and technology advances, these lasers can pave the way for faster and more efficient data centers, and ultimately usher in a new era of data communication.

Source: Laser Net

Đề xuất liên quan
  • Luxiner launches modular laser processing solution Multiscan HE

    Recently, Luxiner, the leading brand in the field of laser technology in the UK, announced the launch of MultiSCAN ®  The latest members of CO2 laser systems - Multiscan HE 10i, 15i, and 25i. These new systems are presented in a completely independent form, integrating power, PC, and software, providing users with comprehensive solutions.The Multiscan HE 10i, 15i, and 25i not only inherit the indu...

    2024-06-07
    Xem bản dịch
  • Jenoptik announces record high preliminary performance for 2024

    Recently, Jenoptik, a German company, released its preliminary performance for 2024, delivering a record high in both revenue and profit, but also revealing hidden concerns amidst industry cyclical fluctuations. Against the backdrop of weak demand in the semiconductor equipment market and increasing global economic uncertainty, this company with laser and optical technology as its core is attempti...

    02-14
    Xem bản dịch
  • Electron beam welding process for thick steel plate of turbine at Aachen Institute of Technology in Germany

    Researchers from the Welding Research Institute of Aachen University of Technology in Germany reported on the development of a stable welding process for electron beam welding of thick plates used in the construction of offshore wind turbines. The relevant research results were published in Materials Science and Engineering Technology under the title "Development of a robust welding process for el...

    2024-07-09
    Xem bản dịch
  • Tokyo Institute of Technology collaborates with EX Fusion to promote laser fusion energy closer to commercialization

    Recently, Tokyo Institute of Technology and EX Fusion established a collaborative research group focused on promoting liquid metal equipment to achieve commercial laser fusion reactors. The two sides held an official signing ceremony in Tokyo on October 11th, marking the official start of their cooperation.The EX Fusion Liquid Metals Collaborative Research Group was established with the support of...

    2023-10-17
    Xem bản dịch
  • Lumibird, a well-known French optoelectronics company, increased its lidar production capacity by 16% year-on-year and was boosted by strong market demand

    On July 24, Lumibird, a well-known French optoelectronics company, released its latest semi-annual report. In the first half of the year, Lumibird's revenues were 97.2 million euros, up 16 percent from the same period last year. Of this, the Optoelectronics division contributed 45.9 million euros and the remaining 51.3 million euros came from its medical division. In the second quarter (Q2) ended ...

    2023-08-04
    Xem bản dịch