Analyst(s): Ray Wang
Publication Date: June 27, 2025

Coherent has launched Osprey, a compact femtosecond laser delivering up to 5 µJ pulse energy and sub-350 fs pulse widths. Designed for optogenetics, microsurgery, and medical device manufacturing, the system combines high stability, low power draw, and seamless integration.

What is Covered in this Article:

• Coherent launches Osprey, a fiber-based femtosecond laser system for medical and industrial applications.
• The system offers up to 5 µJ pulse energy and sub-350 fs pulse width in a compact, efficient design.
• Features include integrated AOM and wide dispersion pre-compensation for complex optical paths.
• Osprey complements Coherent’s Monaco and Axon ultrafast lasers used in two-photon imaging workflows.
• Qualification units are available now, with volume production scheduled for January 2026.

The News: Coherent Corp. (NYSE: COHR) launched Osprey, a compact femtosecond laser designed for optogenetics, microsurgery, and medical device production. It delivers pulses up to 5 µJ with widths under 350 femtoseconds, all while keeping the beam stable and high in quality.

Built on a fiber-based system, Osprey runs below 150 W using a typical 24 V DC power supply. It includes integrated AOM and broad dispersion pre-compensation. Test units are ready now, with full production planned for January 2026. Osprey will be on display at LASER World of Photonics Munich 2025, along with its recently announced Compact Evolution AC—a 500 W Air-Cooled Diode Laser for Industrial Applications.

New Coherent Femtosecond Laser Targets Medical, Bioimaging Integrations

Analyst Take: With the Osprey femtosecond laser, Coherent aims to meet the demands for precision and reliability in medical and industrial settings. Offering sub-350 fs performance on low power, Osprey shows how Coherent is leaning into real-world applications in the ultrafast space. Its fiber-based build and compact size make it an attractive option for OEMs working on surgical and imaging systems. This launch helps expand Coherent’s ultrafast offerings and pushes them deeper into commercial-ready life science solutions.

Design Enables Efficient System Integration

Osprey was made for high-precision tools where space, power, and stability are all tight concerns. The small unit delivers up to 5 µJ of pulse energy using less than 150 W, all supported by a 24 V DC setup. These specs match well with what’s needed in advanced microscopes and medical gear. With lower power and heat requirements, it’s easier for OEMs to drop this into next-gen imaging and surgical builds.

Fiber Architecture Delivers Consistent Output

The solid-core fiber used in Osprey boosts durability while maintaining pulse quality and beam stability over time. This helps reduce aging and keeps performance steady in real-world conditions. With built-in AOM and wide dispersion pre-compensation, it can handle tricky optical setups with adjustable pulses. These features make Osprey ideal for systems where repeatable output and minimal distortion are needed.

Portfolio Alignment Supports Broader Use Cases

Osprey fits in alongside Coherent’s Monaco and Axon-series ultrafast lasers, giving the company more range across optogenetics, calcium imaging, and microsurgery. The unified design makes integrating and getting consistent results easier for engineers and researchers. This strategy strengthens Coherent’s role as a go-to supplier for femtosecond systems. With Osprey in the mix, the lineup is better suited for clinical and lab settings.

Commercial Availability Targets Timely Adoption

Coherent has qualification units available now, with mass production set for January 2026. That gives medical and industrial OEMs time to test and fine-tune their workflows. Osprey will also be featured at LASER World of Photonics Munich 2025, giving early visibility to product teams. This release plan shows that Coherent is serious about helping customers adopt the tech with a clear rollout path.

What to Watch:

• Coherent’s ability to convert qualification feedback into timely volume production by January 2026 will determine initial market traction.
• The success of Osprey in differentiating from other compact femtosecond lasers will depend on performance benchmarks and integration ease.
• OEM adoption may hinge on how effectively the system’s wide dispersion pre-compensation supports complex optical configurations.
• The LASER World of Photonics Munich 2025 showcase will be a key indicator of commercial interest and integrator engagement.

See the complete press release on Coherent’s Osprey femtosecond laser launch on the Coherent website.

Disclosure: Futurum is a research and advisory firm that engages or has engaged in research, analysis, and advisory services with many technology companies, including those mentioned in this article. The author does not hold any equity positions with any company mentioned in this article.

Analysis and opinions expressed herein are specific to the analyst individually and data and other information that might have been provided for validation, not those of Futurum as a whole.

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Image Credit: Coherent

Author Information

Ray Wang

Ray Wang is the Research Director for Semiconductors, Supply Chain, and Emerging Technology at Futurum. His coverage focuses on the global semiconductor industry and frontier technologies. He also advises clients on global compute distribution, deployment, and supply chain. In addition to his main coverage and expertise, Wang also specializes in global technology policy, supply chain dynamics, and U.S.-China relations.

He has been quoted or interviewed regularly by leading media outlets across the globe, including CNBC, CNN, MarketWatch, Nikkei Asia, South China Morning Post, Business Insider, Science, Al Jazeera, Fast Company, and TaiwanPlus.

Prior to joining Futurum, Wang worked as an independent semiconductor and technology analyst, advising technology firms and institutional investors on industry development, regulations, and geopolitics. He also held positions at leading consulting firms and think tanks in Washington, D.C., including DGA–Albright Stonebridge Group, the Center for Strategic and International Studies (CSIS), and the Carnegie Endowment for International Peace.