Français

The semiconductor laser market is expected to reach $5.3 billion by 2029

1030
2024-12-03 13:57:36
Voir la traduction

Nowadays, laser technology is widely used in various traditional and emerging fields, including optical communication, material processing, consumer equipment, automotive sensing and lighting, display technology, medical applications for treatment and diagnosis, as well as aerospace and defense.

Especially in the semiconductor laser market, it is expected to grow from $3.1 billion in 2023 to $5.2 billion in 2029, with a compound annual growth rate (CAGR) of 9% during this period. This growth will be driven by rapid technological advancements, increasing demand from multiple industries, and the push to achieve higher performance at lower costs. The main trends shaping the semiconductor laser market include the expansion of laser applications, the shift towards compactness, energy efficiency, and solutions, as well as the integration of various technology platforms such as SOI, SiN, InP, and TFLN. At the same time, geopolitical factors and supply chain challenges are prompting manufacturers to adopt more flexible production strategies. Overall, driven by innovation in both mature and emerging markets, the semiconductor laser industry is expected to achieve significant growth.

 


The semiconductor (SC) laser industry constitutes the core of the photonic ecosystem. Although SC lasers have been widely adopted in communication and sensing applications, this photon technology is a challenging market for newcomers. SC laser manufacturers operate at different integration levels based on their knowledge and foundry capabilities, and must strategically choose segmented markets or applications based on their internal capabilities. The wide range of applications requires unique laser system specifications, which can affect the design of SC laser chips. In addition, there is fierce competition among direct diodes, fiber lasers, DPSSL, OPSL, and gas lasers in terms of technological level.

Therefore, the SC laser industry is highly dispersed and diversified, and each application requires a specific supply/value chain. Manufacturers must adopt different strategies to enter different segmented markets. The leading SC laser manufacturer implements vertical integration, managing all steps from epitaxial and front-end (FEOL) processing to back-end (BEOL) and module assembly or laser subsystem construction. Some even specialize in producing laser machinery for material processing applications.

VCSEL technology is rapidly developing, and companies such as Lumentum, Coherent, and Trumpf have improved power density through NIR multi junction design, increasing from 5-6 junctions to 8 by 2024. These lasers were initially used in automobiles and are now expanding into consumer and industrial markets. Despite technological challenges, efforts to extend GaAs VCSEL from NIR to SWIR (including wafer fusion technology) still show promise, while GaN based visible light VCSEL is still in the research and development stage due to performance limitations and low market demand. In the field of optical communication, VCSEL is developing from 100G/lane to 200G/lane, and the grand goal for the future is 400G/lane.

Similarly, EEL technologies such as DML, EML, and CW-DFB are expected to achieve 200G/lane by the end of 2024. FP and QCL lasers continue to dominate the industrial, medical, and automotive fields, with the goal of achieving a power output of 20W by 2026 to help reduce system costs. In the field of automotive LiDAR, EEL faces competition from advanced VCSEL and emerging FMCW LiDAR technologies. Driven by artificial intelligence driven optical communication, it is expected that by 2029, the demand for photonics integrated circuits (PIC) from SC lasers will reach a market share of 5%. However, due to continuous advancements in power, efficiency, and wavelength diversity, discrete lasers still remain competitive.

Source: Yangtze River Delta Laser Alliance

Recommandations associées
  • The new progress of deep ultraviolet laser technology is expected to change countless applications in science and industry

    Researchers have developed a 60 milliwatt solid-state DUV laser with a wavelength of 193 nanometers using LBO crystals, setting a new benchmark for efficiency values.In the fields of science and technology, utilizing coherent light sources in deep ultraviolet (DUV) regions is of great significance for various applications such as lithography, defect detection, metrology, and spectroscopy. Traditio...

    2024-04-10
    Voir la traduction
  • New nanophotonic circuits demonstrate the potential of quantum networks

    The Purdue University team in the United States has captured alkali metal atoms (cesium) in integrated photonic circuits, which can serve as transistors for photons (the smallest energy unit of light). These captured atoms demonstrate for the first time the potential of cold atom integrated nanophotonic circuits to construct quantum networks. The research results were published in the latest issue...

    2024-08-14
    Voir la traduction
  • University of Science and Technology of China realizes quantum elliptical polarization imaging

    Recently, the team led by Academician Guo Guangcan from the University of Science and Technology of China has made significant progress in the research of quantum elliptical polarization imaging. The research group of Professor Shi Baosen and Associate Professor Zhou Zhiyuan combined high-quality polarization entangled light sources with classical polarization imaging technology to observe the bir...

    04-14
    Voir la traduction
  • Research progress on machine learning for defect detection and prediction in laser cladding process

    It is reported that researchers from Foshan University, the Institute of Chemical Defense of the Academy of Military Sciences, the National Defense Technology Key Laboratory of Equipment Remanufacturing Technology of the Armored Forces Academy, and Chengdu State owned Jinjiang Machinery Factory have summarized and reported the latest progress of machine learning in defect detection and prediction ...

    01-17
    Voir la traduction
  • Showcasing the world's fastest photonics alignment system for SiPh chips on Photonics West

    With its proprietary fast multi-channel photon alignment algorithm and professional high-precision machinery, PI helps customers improve production efficiency to participate in the rapidly growing silicon photonics market. Over the past decade, PI has been continuously expanding its range of automatic photon alignment engines and will launch new systems at both ends of the spectrum in this year's ...

    2024-01-19
    Voir la traduction