Call for Papers
Photonic Devices
Active and passive photonic devices including lasers, modulators, detectors, isolators, amplifiers, switches, filters, waveguides fabricated from materials including
III-V and compound semiconductors
Silicon and other Group IV
Dielectric and polymers
LiNbO3 - and other pockels effect based devices
Materials, fabrication and characterization technologies for photonic integrated circuits and devices
Characterization of linear and nonlinear optical waveguide devices;
Micro-machined and micro-optic components;
Reliability advances and issues;
Emerging packaging technologies.
Novel assembly and manufacturing techniques;
Nanophotonics: Nanostructured photonic devices
Topological photonics
Photonic crystals (waveguides, resonators, light sources)
Nano-engineered devices for the generation, transport and detection of light
Sub-wavelength devices
Biological and chemical transducers
Nanostructured photovoltaics
Plasmonics
Nanofabrication technology
Lithography and etching techniques
Growth and deposition approaches
Self-organized methods
Nanoscale structure characterization
Integrated Photonics Applications
Photonic integrated circuits and optoelectronic integrated circuits
Application of novel fabrication and material technologies for integrated photonics
Photonic integrated circuits for telecom and datacom applications
Photonic integrated circuits for sensing
Novel applications of photonic integrated circuits
New functionality implemented in photonic integrated circuits
Mode locked lasers
Ultra-narrow linewidth oscillators
On-chip optical trapping
Optical references
Integrated Optical Phased Arrays
Integrated Photonics for LiDAR applications
PICs for artificial intelligence and machine learning
Integrated Nonlinear & Quantum Optics
Frequency comb generation
Solitons and supercontinuum generation
Physics, theory and applications of linear and nonlinear processes in novel integrated structures
Nonlinear switching, modulation, memories and logic,
Nonlinear optics in metamaterials, thin-films, 2D materials, and opto-mechanics
Nonlinear frequency conversion for classical and quantum applications
Frequency comb generation
Harmonic generation
Raman and Brillouin gain
Frequency (up/down) conversion
Generation of single/entangled photons
Squeezed states generation and detection
Quantum opto-mechanics
Biological and chemical sensing
Integrated quantum systems
Quantum memories
Optical quantum computing
Quantum key distribution
Quantum dots and other single-photon sources
Quantum state characterization (singe photon detectors, homo/heterodyne detection, etc.)
Microwave-optical bridging and hybridization
New Materials for Integrated Photonics
Novel materials for advanced opto-electronics
Beyond graphene: the new class of 2D materials
Exceptional Photonics: devices and physics with exceptional points
Active two-dimensional photonics
Epsilon near zero and near zero index materials
Phase change materials for dynamic nanophotonics
Extreme nonlinear optical materials and phenomena
Energy efficient photonics materials and devices
Materials and devices for optical computation and imaging
New materials and approaches for active systems
Novel material/device fabrication and integration methods
Machine learning accelerated materials discovery and optimization for photonics
Novel materials for quantum photonic devices and emitters
Theory, simulation and novel physical insights
Devices and performance beyond conventional limits
Enhanced light matter interactions
Linear and nonlinear computational analysis and methods
Emerging opto-electronic devices and platforms
Integrated and active plasmonic devices and materials
Integrated electro-optic modulators and materials
Nano-photonic device Integration
Heterogeneous and hybrid material platforms
Artificial optical materials and metamaterials for photonics
Bio-photonics platforms for integrated devices
Topological quantum materials
