Germany / Switzerland / Netherlands / France / Japan / United Kingdom / / /
Event
Environmental Issue / /
Facility
Eindhoven University of Technology / University of Southampton / /
IndustryTerm
low-energy femtosecond laser pulses / lab-on-a-chip / metal coating / laser-based optofluidic microinstruments incorporating waveguide networks / micro-mechanical systems / integrated devices / lab-on-chip applications / silica processing / pulse energy / machinery / optofluidic lab‐on‐chips / manufacturing platform / molds using femtosecond laser processing / specialised and expensive equipment / optomechanical and photonic devices / proof-of-concept device / low-energy femtosecond pulses / microsystem applications / optimum processing window / cleanroom equipment / energy / spacevariant subwavelength metal stripe gratings / optomechanical devices / integrated optical systems / compact robust tool / material processing / low pulse energy / energy requirements / real-time field analysis / chemical etching / photonics devices / electronics / micro/nano-systems / nano-scale devices / manufacturing / planar technologies / net deposited energy / real-time monitoring / photonic device / deposited energy / low-energy femtosecond laser / energy distribution / laser systems / photonic devices / optofluidic technology / /
Organization
Optoelectronics Research Center / Ecole Polytechnique Fédérale de Lausanne / Eindhoven University of Technology / Mechanical Engineering Department / European Commission / Centre Suisse d’Electronique / University of Southampton / /
Person
S. Taccheo / J. W. Hoekstra / J. Qiu / G. Della Valle / Y. Hosokawa / A. Festa / S. Hashimoto / N. Chiodo / V / J. D. Mills / K. Hirao / M. Pollnau / H. Masuhara / P. G. Kazansky / Z. Bomzon / V / P. Laporta / M. Beresna / Y. Shichijo / B. G. Klappauf / R. Osellame / K. Miura / S. Kiyama / G. Cerullo / T. Tomita / J. J. Baumberg / E. Bricchi / E. Simova / V / M. Sakakura / /