Edge emitting lasers: a 15% market growth, driven by historical applications
The edge emitting laser market will reach $6.6B in 2026, driven by optical communications, with emerging applications outpacing traditional material processing.
“Since the development of lasers in the 1960s, they have been increasingly used in a large number of applications.” asserts Martin Vallo, PhD, Technology & Market Analyst, solid-state lighting technologies, within the Photonics, Sensing & Display division at Yole Intelligence, part of Yole Group. “The unique properties of coherent light have helped replace conventional manufacturing methods and have advanced fiber-optic communication. This has propelled the laser market to a trillion-dollar business since the 1990s. Semiconductor laser-based technology placement in different market segments continues to grow moderately”.
Nowadays, material processing and optical communication applications continue to be the main driver of the laser market’s US$2.2 billion revenues in 2020, comprising more than 75%. Laser technologies are also ubiquitous in many emerging applications. These span mostly semiconductor manufacturing, 3D sensing, spectroscopy, medical, display and lighting applications.
Titre du visueljune 2021
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In this context, Yole investigates disruptive technologies and related markets in depth, to point out the latest innovations and underline the business opportunities.
Released today, the Edge Emitting Lasers – Technology and Market Trends 2021 report contributes to the understanding of the global landscape in terms of laser technology for different applications. Including market trends and forecasts, supply chain, technology trends, technical insights and analysis, take away and outlook, this study also delivers an in-depth understanding of the ecosystem and main players’ strategies.
What are the different types of EEL? What are the economic and technological challenges of the EEL industry? What are the key drivers? Who are the suppliers to watch, and what innovative technologies are they working on?
Yole presents today its vision of the EEL industry.
As analyzed by Yole’s team in the new Edge Emitting Lasers – Technology and Market Trends 2021 report, the laser technology landscape is highly fragmented, with a wide variety of laser types, including semiconductor lasers, fiber lasers, DPSSLs , and gas lasers. The right choice of laser technology depends on multiple parameters such as operation wavelength, operation mode, beam quality, output power and efficiency. Studies of light and matter interaction have enabled different types of lasers even in various small applications in which traditional methods dominated.
In this report, analysts focus on semiconductor lasers, especially EELs.
For Pars Mukish, Business Unit Manager, Solid-State Lighting & Display at Yole: “This laser light source has revolutionized the concept of laser systems that lead to new specific attributes including miniaturized devices, stabilized coherent light and narrow emission wavelengths. In practice, EELs can be used as “direct” lasers but also coupled with optical fibers or crystals to make fiber-lasers or DPSSLs. The advanced laser technologies then provide advantages such as better beam quality, improved stability in terms of laser noise and increased power output”.
Optical sensing, mainly LiDAR, will play an increasingly important role in the evolving automotive landscape. Material processing, which is currently the second largest market for EELs, will remain an attractive business in terms of value but the growth will be limited, particularly due to the US-China trade war and COVID-19 pandemic. Yole’s analysts expect CAGR2020-2026 for this application to be only 3%. On the other hand, some traditional applications such as printing and optical storage will continue declining rapidly with digitization and cloud storage trends.
Each market segment addresses its own value chain due to highly specific demands on laser technology. Such diversified laser technologies, coupled with the wide spectrum of laser applications, create different leaders for each market segment. Hereafter, key semiconductor laser players in the material processing, medical, optical communication, sensing, and display and lighting market segments have been identified:
• Material processing: Trumpf, IPG Photonics, Coherent, Han’s Laser, Raycus…
• Medical: Modulight, Coherent, Jenoptik, MKS, Hamamatsu…
• Optical communication: II-VI, Lumentum, Broadcom, Neophotonics, Cisco…
• Sensing (LiDAR): Lumentum, II-VI, OSRAM, Hamamatsu, Laser Components…
• Display and Lighting: OSRAM, Nichia, Sony, Sharp, Kyocera SLD Laser…
There is no overall leader in the laser industry. The vast majority of laser suppliers come from the U.S., Japan, Germany and Canada. Chinese laser suppliers focus on assembly laser machines such as automated cutting/welding tools, optical transceivers, LiDAR and others. However, the Chinese government invests significantly in core laser technologies. As tension between the U.S. and China escalates, China wants to maintain its economic growth by ensuring a secure and controllable technology supply chain as well as building domestic technology sectors to be independent of U.S. parts impacted by tariffs.
The market research has revealed more than 100 EEL manufacturers. They focus on device manufacturing for one or more application fields.
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