ANSYS

Ethicon, a world-class medical devices company, faced several challenges in its operations. The rapid selection of manufacturing materials compliant in global markets was critical to assure patients, practitioners, and purchasing organizations of the biocompatibility of their medical devices. Ensuring supply chain continuity and minimizing risks of obsolescence for medical devices due to regulatory changes were also crucial in meeting Ethicon’s ongoing commitment to maintaining patient care. Furthermore, the engineers at Ethicon were developing the next generation of medical devices and needed to access historical material data to accelerate new product development. The process of centralizing and digitalizing its materials information was a significant challenge that Ethicon needed to overcome.

ELI Beamlines’ latest advancement is its High-repetition-rate Advanced Petawatt Laser System (HAPLS). HAPLS is the first diode-pumped and highest average power petawatt system (300 W, 10 Hz repetition rate) ever built. HAPLS can achieve focused intensities between 1021-1023 watts per square centimeter, the equivalent of all sunlight as it arrives at the earth being focused to the diameter of a human hair. Achieving the extreme high-power, short-pulse features of HAPLS required rigorous design validation and highly nuanced beam propagation capabilities.

Meopta offers a full range of in-house optics and photonics services. Many of Meopta’s customers are in the fast-moving semiconductor market, where precision is crucial. However, volume is also a key priority, as a feasible mass production means keeping costs low and performance high. For the designs Meopta delivers to these customers, its engineers must find the most efficient methods for optimizing product features without impacting customer profitability.