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Symposium Scope & Objectives
This symposium will address the latest advancements in Nanophotonics, including experimental and theoretical progresses in design and fabrication of new photonic materials, structures, devices, as well as applications in spectroscopy, microscopy, imaging techniques and signal processing. Through exploring novel optical properties and phenomena, as well as modelling, simulation and computational approaches, the symposium will bring together multi-disciplinary experts in both academia and industry to tackle emerging challenges and applications in the fields of energy, communication, environment, biology and quantum technology.
Key Topics include but are not limited to
Advanced simulation, machine learning and AI
- Inverse designs and devices
- Novel materials design and applications
- Quantum photonics and computing
- Signal processing
Nanophotonic materials and devices
- Metamaterials and metasurfaces
- Semiconductor nanomaterials and nanostructures
- 2D materials
- Tunable materials and structures
Neuromorphic materials and devices
- Photonic memristers
- Optical spiking neurons
- Threshold switching devices
- Nonlinear materials and devices
Integrated Photonic devices, circuits, and systems
- Integrated lasers, electro-optic devices, resonators and microcombs
- Photonic and computational imaging
- Advanced spectroscopy and microscopy techniques
- Photonic computing and optical signal processing
- Nanofabrication, heterogenous and hybrid integration
Nanophotonics for light-matter interactions
- Photon-phonon interactions
- Nanophotonic cavities
- Plasmonics
- Opto-mechanical structures and cavities
Target Audience
This symposium will appeal to researchers, engineers, and industry professionals working in nanophotonics, integrated photonics, nanotechnology, materials science, communications, signal processing and sensing. The session aims to foster interdisciplinary discussions on the future of Nanophotonics and their real-world impact.
