Oliver Fähnle


Organisation: Eastern Switzerland University of Applied Sciences (OST)


Role: Senior research scientist, Photonics Systems Manufacturing group


In addition to being a senior member of both Optica and SPIE, and chairman of the European Optical Society’s industrial advisory committee, Oliver Fähnle has more than 25 years experience in applied research projects within both academia and industry. From 1999 to September 2020, Fähnle


worked as senior expert optical fabrication technology at Fisba and he is co-founder and co-owner of Pandao, a company that provides software for optimising optics fabrication during the design stage. Fähnle has authored more than 140


White Papers


Available online


Based in: Buchs, Switzerland Education: PhD, applied physics, Technical University of Delſt


reviewed scientific papers and holds several patents. In 2022, he chaired the EOS conference ‘Optical System design, tolerancing and manufacturing’ in Porto, as well as the ‘Precision Optics Manufacturing’ SPIE conference in Deggendorf, Germany. Currently, he supports research students


and the next generation of engineers by serving on PhD defence committees at the University of Huddersfield (UK) and the University of Ilmenau (Germany), and as a visiting lecturer at the University of Deggendorf in Germany.


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www.electrooptics.com/whitepapers Hanieh Fattahi


Organisation: Max Planck Institute for the Science of Light


Role: Independent group leader/ PI


The field of ultrashort pulse generation is mature, according to Hanieh Fattahi, the leader of the ‘Femtosecond Fieldoscopy’ independent research group: ‘We are capable of generating pulses with arbitrary shapes at high average- and peak power.’ On the other hand, said Fattahi,


‘frequency-comb spectroscopy and field-resolved spectroscopy are opening new eras in sensitive detection. These two advancements set the stage for not only exploring a new era of light-matter interaction at unprecedented sensitivity, but also employing them for real-life


applications like spectro-microscopy of soft matter or sensitive monitoring of atmospheric pollutants.’ She believes field-resolved detection


at simultaneously higher sensitivity and bandwidth remains a challenge: ‘There have been many different field-resolved methodologies, suggested and developed over the last few years. However, they are limited in terms of bandwidth and sensitivity. A novel solution could change the state of the art.’ Fattahi's research group is at fieldoscopy.de. She is giving an invited talk at CLEO 2023.


Based in: Erlangen, Germany Education: PhD in Physics


Electro Optics


24 Photonics100 2023


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