CEA-Leti Announces 16 Papers to be Presented at Photonics West 2021 and a Virtual Workshop on March 25

CEA-Leti, a technology research institute of CEA Tech, will present 16 papers during Photonics West 2021, March 6-11, including an invited paper, "Advanced roughness characterization for 300mm Si photonics patterning & optimization".

CEA-Leti, a technology research institute of CEA Tech, will present 16 papers during Photonics West 2021, March 6-11, including an invited paper, “Advanced roughness characterization for 300mm Si photonics patterning & optimization”.

In addition, the institute will host a virtual workshop, “Emerging Photonic and Integration Technologies for Healthcare” on March 25.

The one-hour event will explore coming innovations in photonics, and will include virtual stands where participants can discuss their innovations. Group-and-private chat networking will be available through text, video and audio chat.

Photonic Workshop Presentations

·       CEA-Leti’s vision on bioelectronics  Emmanuel Sabonnadière, CEO

·       New  therapeutic approach for Parkinson’s disease leveraging NIR light  Cécile Moro, Clinatec Project Manager

·       Computational microscopy for health applications  Sophie Morales, Head of Imaging Systems for Biology and Health Lab

·       Emerging sensors tackling environmental and medical challenge  Bertrand Bourlon, Head of the Optical Sensors Lab

·       The rise of quantum photonics computing and communication  Ségolène Olivier, Quantum Photonics Program Manager

·       Toward deep electronics and photonics integration  Fabrice Guellec, Head of Smart Integrated Circuits for Imaging Lab

Register Here  –  See times in Tokyo, Paris and San Francisco at https://www.leti-innovation-days.com/

Papers by Topic at Photonics West

Retinal Projections & Heads-up Display

·       Pixelated holographic reflector recording for retinal projection devices

·       Analysis of new optical addressing strategies for the optimization of retinal projection display

·       Experimental validation of SiN photonic integrated waveguide arrays at λ = 532nm for Augmented Reality display applications

3D Imagers (LiDARs)

Sensors

·       Multispectral lensless imaging in the mid-infrared for label-free identification of Staphylococcus species

·       Mid infrared multispectral imaging for tumorous tissues detection

·       Cavity optomechanics for trace gas detection

Silicon Photonics

  Healthcare Biomedical Imaging

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