Since 1990, when IPG introduced the first high-power fiber laser, we have been applying light to transform the world. Today, we offer a broad range of high-performance lasers and laser systems used in materials processing, medical procedures, and advanced applications.

Robust and reliable, fiber lasers have experienced widespread adoption across a wide range of applications. Taking advantage of an industry-leading architecture, IPG fiber lasers offer higher productivity and energy efficiencies compared to alternative laser technologies and traditional processing methods.

Laser diodes are semiconductor devices that use electricity to emit highly concentrated light, which is then coupled and pumped to create a laser source. A unique single-emitter diode design allows IPG lasers to offer higher output power, greater beam quality, and dramatically more energy efficiency.

A unique design has allowed IPG to offer the industry's most energy efficient lasers, enabling manufacturers across sectors and applications to maximize their productivity, minimize their bottom line, and replace alternative technologies with truly environmentally-friendly solutions.

Adjustable Mode Beam (AMB) is a dual-beam technology that introduces a secondary ring beam around a primary core beam. IPG AMB technology allows for independent adjustment of the ring and core beams to enable optimized quality and processing speeds in welding, cutting, and drilling applications.

"Deep UV" lasers, which emit beams of light with wavelengths shorter than 300 nanometers, offer numerous benefits for applications including microprocessing and scientific endeavors. IPG Deep UV fiber laser technology provides a unique combination of power, reliability, and operating stability.

Utilizing pulse durations measured in femtoseconds and picoseconds, ultrafast lasers offer the high precision required for advanced and microprocessing applications. IPG ultrafast fiber lasers are compact, low cost, truly industrial, and easy to integrate.

Real-time laser weld measurement is a weld process monitoring technology that uses a low-power infrared laser beam to directly record keyhole depth data in real time. The result is a direct, in-process measurement of weld geometries comparable to destructive cross-sectioning without destroying the part.