News

A ultrafast laser on a chip

Published:04.06.26 — EPFL researchers have built a photonic chip that rivals much larger laboratory lasers, delivers extremely short, high-energy optical pulses, and could reshape technologies like medical diagnostics and optical atomic clocks.

Wafer-scale lasers bring fiber performance to photonic chips

Published:11.03.26 — Researchers at EPFL have developed the first wafer-scale, foundry-compatible erbium-doped integrated lasers, combining industrial manufacturability with performance approaching that of state-of-the-art erbium‑doped fiber lasers.

Copper damascene process brings electronics and photonics together

Published:02.03.26 — EPFL researchers have, for the first time, applied the semiconductor industry’s standard copper wiring process to ferroelectric thin film photonics. By building lithium tantalate modulators with copper instead of gold, they remove a major barrier to 3D integration with advanced CMOS electronics and move optical interconnects closer to large scale deployment in data centers and AI clusters.

Removing copper impurities improves photonic integrated circuits

Published:23.10.25 — EPFL researchers identify copper impurities as the hidden barrier in silicon nitride photonic chips, paving the way for reliable, real-world applications of soliton microcombs.

Tobias J. Kippenberg has been awarded the Marcel Benoist Prize

Published:16.09.25 — EPFL physicist Tobias J. Kippenberg has been awarded the Marcel Benoist Swiss Science Prize 2025 for his excellent work in quantum optomechanics and the generation of optical frequency combs.