nLight, Inc. is a developer and manufacturer of high‐power semiconductor and fiber lasers, laser systems, and related components for industrial, microfabrication, and specialty applications. Founded in 2000 and headquartered in Bothell, Washington, the company combines expertise in photonics, materials science, and precision engineering to deliver products designed for demanding environments and high‐throughput processes. nLight’s solutions aim to improve throughput, reduce operating costs, and expand the capabilities of laser‐based manufacturing across a range of sectors.
The company’s product portfolio includes continuous‐wave and pulsed fiber lasers, disk lasers, fiber delivered laser modules, and custom laser subsystems. These products offer high peak and average power levels, flexible beam quality, and sophisticated control electronics. nLight’s fiber lasers are widely used for precision cutting, welding, drilling, and surface treatment, while its semiconductor laser diodes and pump solutions support fiber laser pump modules and advanced sensing applications.
nLight serves a global customer base across North America, Europe, and Asia. Key markets include automotive and aerospace manufacturing, electronics and semiconductor processing, medical device fabrication, and defense and security. Through regional sales offices and a network of distributors, the company provides technical support, integration services, and system customization to meet specific end‐user requirements. Strategic partnerships with equipment OEMs and research institutions help drive ongoing innovation and product development.
Under the leadership of President and CEO Mark Siegel, nLight emphasizes research and development, with multiple facilities dedicated to optical design, materials processing, and system integration. The company’s management team brings extensive experience in photonics, manufacturing, and corporate governance. Looking ahead, nLight continues to invest in next‐generation laser architectures and scalable manufacturing techniques to address emerging applications in additive manufacturing, precision microfabrication, and advanced sensing.
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