Author Of 2 Presentations
OMPEES - Optical Metamaterials, Plasmonics and Engineered Electromagnectic Structures
TuA3.2 - NANOPHOTONICS FOR ARTIFICIAL NEURAL COMPUTING
Presentation Type
Invited Submission
Date
08/20/2019
Time
01:15 PM - 03:15 PM
Room
Sandpiper A/B
Duration
30 Minutes
Lecture Time
01:45 PM - 02:15 PM
Abstract
Abstract
We show that wave dynamics in nanostructured media can perform artificial neural computing, and artificial neural network can also be used to design nanophotonic media.
NPNMAP - Novel Phenomena and New Materials for Advanced Photonics
WE3.5 - NONLINEAR NANOPHOTONIC MEDIA FOR ARTIFICIAL NEURAL COMPUTING
Presentation Type
Contributed Submission
Authors
Date
08/21/2019
Time
01:00 PM - 03:00 PM
Room
Emerald E
Duration
15 Minutes
Lecture Time
02:45 PM - 03:00 PM
Abstract
Abstract
We show optical waves passing through a nanophotonic medium can perform artificial neural computing. Such a medium exploits sub-wavelength linear and nonlinear scatterers to realize complex input-output mapping far beyond the capabilities of traditional nanophotonic devices.
Presenter Of 1 Presentation
OMPEES - Optical Metamaterials, Plasmonics and Engineered Electromagnectic Structures
TuA3.2 - NANOPHOTONICS FOR ARTIFICIAL NEURAL COMPUTING
Presentation Type
Invited Submission
Date
08/20/2019
Time
01:15 PM - 03:15 PM
Room
Sandpiper A/B
Duration
30 Minutes
Lecture Time
01:45 PM - 02:15 PM
Abstract
Abstract
We show that wave dynamics in nanostructured media can perform artificial neural computing, and artificial neural network can also be used to design nanophotonic media.