Tutorials

In EOSAM2022, as in previous EOSAM conferences, in addition to the conference program including contributed and invited speakers, we wish to provide an additional benefit to all registered attendees at EOSAM in the form of tutorials covering Topical Meeting (TOM) topics. The tutorials will be held on Monday.

Participation in these tutorials is free for all registered participants of the conference but pre-registration required for each tutorial.

You can view the detailed schedule for the whole conference (including tutorial times) at: https://www.conftool.com/eosam2022/sessions.php

Register for the tutorials here: https://forms.gle/BphPTqES82jx5LqL8 
(NOTE: Tutorials available only for registered EOSAM participants, registration is biding.)

 

Benoit Boulanger

Sébastien Bidault

Institut Langevin, ESPCI Paris, Université PSL, CNRS, Paris, France

 

Title: Nanoscale Emitters and Resonators: from a Weak to a Strong Coupling Regime

Sébastien's tutorial on resonant Nanophotonics will concern at least the following TOMs:

  • TOM 5: Resonant Nanophotonics
  • TOM 6: Optical Materials
  • TOM 8: Nonlinear and Quantum Optics
  • TOM 9: Opto-electronic Nanotechnologies and Complex Systems
  • TOM 13: Advances and Applications of Optics and Photonics

Sébastien's tutorial is 17:00-18:30.

 

Benoit Boulanger

Benoit Boulanger

University Grenoble Alpes · Institut NEEL CNRS, France

 

Title: Nonlinear optics for conversion of laser frequencies and generation of quantum states of light

Benoit's tutorial on nonlinear optics will concern at least the following TOMs:

  • TOM 6: Optical Materials: crystals, glasses, thin films, nanostructures/nanocrystals, metasurfaces, organic molecules and polymers, synthesis...
  • TOM 8: Nonlinear and Quantum Optics
  • TOM 11: Tapered Optical Fibers
  • TOM 13: Advances and Applications of Optics and Photonics

Visit Benoit's webpage

Benoit's tutorial is 13:00-14:30.

Oliver Fähnle

Oliver Fähnle

OST – Eastern Switzerland University of Applied Sciences, Switzerland

 

Title: From Optical Design to Optical Fabrication and Photonics Systems Generation

Oliver's tutorial on optical system design, tolerancing and manufacturing will concern at least the following TOMs:

  • TOM 2: Computational, Adaptive and Freeform Optics - focus on Illumination, AR/VR and information driven systems
  • TOM 3: Optical System Design, Tolerancing and Manufacturing
  • TOM 6: Optical Materials
  • TOM 10: Frontiers in Optical Metrology
  • TOM 13: Advances and Applications of Optics and Photonics

Visit Oliver's LinkedIn page

Oliver's tutorial is 13:00-14:30.

Rügiger  Paschotta

Rüdiger Paschotta

RP Photonics AG, Frauenfeld, Switzerland

 

Title: Numerical modelling of fiber devices

Rüdiger's tutorial explains various kinds of numerical models, in particular concerning light propagation in passive and active fibers, including ultrashort light pulses, and the calculation of the optical powers and spectra in amplifiers and lasers in different operation regimes: continuous-wave, nanosecond pulse amplification and mode locking. It will concern at least the following TOMs:

  • TOM 1: Silicon Photonics and Guided-Wave Optics
  • TOM 3: Optical System Design, Tolerancing and Manufacturing
  • TOM 11: Tapered Optical Fibers, from fundamentals to applications
  • TOM 13: Advances and Applications of Optics and Photonics

Visit RP Photonics website

Rüdiger's tutorial is 15:00-16:30.

Sophie brasselet

Holger Schmidt

UCSC – The Baskin School of Engineering at UC Santa Cruz, United States

 

Title: Optofluidics for single molecule analysis: From photonic innovation to applications

Holger's tutorial on optofluidics will concern at least the following TOMs:

  • TOM 1: Silicon Photonics and Guided-Wave Optics
  • TOM 4: Bio-Medical Optics
  • TOM 6: Optical Materials: crystals, glasses, thin films, nanostructures/nanocrystals, metasurfaces, organic molecules and polymers, synthesis...
  • TOM 9: Opto-electronic Nanotechnologies and Complex Systems
  • TOM 12: Optofluidics
  • TOM 13: Advances and Applications of Optics and Photonics

Visit Holger's LinkedIn page

Holger's tutorial is 15:00-16:30.

Sophie brasselet

Roozbeh Shokri

Thorlabs GmbH, Germany

 

Title: Thorlabs Crystalline Mirrors

Roozbeh's tutorial on crystalline mirrors will concern at least the following TOMs:

  • TOM 3: Optical System Design, Tolerancing and Manufacturing
  • TOM 6: Optical Materials: crystals, glasses, thin films, nanostructures/nanocrystals, metasurfaces, organic molecules and polymers, synthesis...
  • TOM 8: Nonlinear and Quantum Optics
  • TOM 10: Frontiers in Optical Metrology
  • TOM 13: Advances and Applications of Optics and Photonics

Roozbeh's tutorial is 17:00-18:30.

Brambilla photoGilberto Brambilla

University of Southampton / The Future Photonics Hub, United Kingdom

 

Title: Optical microfibre devices and sensors

Gilberto's tutorial on optical microfibres will concern at least the following TOMs:

  • TOM5: Resonant Nanophotonics

  • TOM6: Optical Materials: crystals, glasses, thin films, nanostructures/nanocrystals, metasurfaces, organic molecules and polymers, synthesis...

  • TOM8: Nonlinear and Quantum Optics

  • TOM11: Tapered Optical Fibers, from fundamentals to applications

  • TOM13: Advances and Applications of Optics and Photonics

Gilberto's tutorial is 17:00-18:30.

Benoit Boulanger

Ariel Guerreiro

University of Porto & INESC TEC, Portugal

 

Title: An introduction to quantum sensing as quantum information systems

Ariel's tutorial on optical microfibres will concern at least the following TOMs:

  • TOM8: Nonlinear and Quantum Optics

  • TOM10: Frontiers in Optical Metrology

  • TOM13: Advances and Applications of Optics and Photonics

Ariel's tutorial is 15:00-16:30.

 

Brambilla photoJulien Charton

Alpao, France

 

Title: Hands-on approach to adaptive optics: wavefront sensors, deformable mirrors and control methods

Julien's tutorial on optical microfibres will concern at least the following TOMs:

  • TOM2: Computational, Adaptive and Freeform Optics - focus on Illumination, AR/VR and information driven systems

Julien's tutorial is 13:00-14:30.