Neuromorphic Photonic Devices and Applications Photonic Materials and Applications Series

Neuromorphic Photonic Devices and Applications synthesizes in one volume the most critical advances in photonic neuromorphic models, photonic material platforms, and accelerators for neuromorphic computing. It discusses fields and applications that can leverage these new platforms.

A brief review of the historical development of the field is provided followed by a discussion of the emerging 2D photonic materials platforms and recent work in implementing neuromorphic models and 3D neuromorphic systems. The application of artificial intelligence such as neuromorphic models to inverse design neuromorphic materials and devices and predict performance challenges is discussed throughout. The book includes a comprehensive overview of the applications of neuromorphic photonic technologies and the challenges, opportunities, and future prospects facing the field.

Neuromorphic Photonic Devices and Applications is suitable for researchers and practitioners in academia and R&D in the multi-disciplinary field of photonics.

Section 1: Introduction
1. Neurons, brain and nervous system
2. Neuromorphic computing
3. Advanced neuromorphic models

Section 2: Neuromorphic Photonics
4. Development of the field of Neuromorphic Photonics
5. Photonic devices for neuromorphic systems
6. 2D Neuromorphic photonic components
7. 2D Neuromorphic Photonics
8. 3D Neuromorphic photonics
9. Neuromorphic systems enabled by photonics
10. Neuromorphic models applied to photonics

Section 3: Applications
11. Photonic accelerators for AI
12. Deep optics
13. Neuromorphic processing for optical communications

Section 4: Perspective
14. Perspective

Min Gu is Executive Chancellor of the University Council and Distinguished Professor of University of Shanghai for Science and Technology. He was Distinguished Professor and Associate Deputy Vice-Chancellor at RMIT University and a Laureate Fellow of the Australian Research Council. He is an author of four standard reference books and has over 500 publications in nano- and biophotonics. He is an elected Fellow of the Australian Academy of Science and the Australian Academy of Technological Sciences and Engineering as well as Foreign Fellow of the Chinese Academy of Engineering. He was awarded the Einstein Professorship, the W. H. (Beattie) Steel Medal, the Ian Wark Medal, the Boas Medal, the Victoria Prize for Science and Innovation and the 2019 Dennis Gabor Award of SPIE.
Elena Goi received her B.S. and M.S. in physics from the University of Trieste. In 2018 she was awarded her Ph.D. from RMIT University, Australia, under the supervision of Prof. Min Gu. She is now an early career researcher at USST, Shanghai, China. Her current research includes the development and implementation of hybrid three-dimensional (3D) nanolithographic techniques that enable the study of novel 3D optical materials and architectures for optical neural networks.
Dr Wang received her B.S. in Biomedical Engineering from Changzhi Medical College and M.S. in Communication and Information Engineering from Northwestern Polytechnical University. In 2017 she was received her Ph.D. in Theoretical Physics from Free University, Amsterdam, under the supervision of Prof. Emil Wolf and Prof. Taco D. Visser. She is now an early career researcher at USST, Shanghai, China. Her current research includes the development of nanoscopic imaging techniques and its implementation in neuroscience for the development of nanophotonics chip
Dr. Wan received his B.S. degree in Physics from Xinjiang University and M.S. degree in Physics from Zhejiang University in 2008 and 2010, respectively. After graduated

Approx.480 pages