Accurate light manipulation is a promising area for the exploration of new frontiers in photonics, including the manipulation of light scattering, polarization, optical phases, nonlinear optics and electron spin. There is still a lack of functional materials and waveguide structures that can effectively manipulate the optical process. Therefore, it is of vital importance to advance the development of light manipulation and the exploration of relevant application using various techniques, including the design of functional materials and waveguide structures.
The goal of this Research Topic is to advance light manipulation with a focus on the following areas: Raman imaging, image storage, carrier dynamics and nonlinear optical processes, and spin optoelectronics. This collection will allow readers from industry and academia to understand the current progress of optical manipulation and reach new ideas for future applications.
We welcome Reviews, Original Research articles, and Perspectives, in themes including but not limited to:
• Design, synthesis and characterization of novel functional materials and waveguide structures for optical process control.
• Studies on the relationship between material structure and optical properties of novel compounds
• Advances in Raman imaging with the ability of attenuation and elimination of fluorescence background
• Polarization hologram storage using organic molecules
• Studies on carrier dynamics and nonlinear optical processes in: nanostructures, fibers and 2D materials
• Spin optoelectronics studies in novel materials, such as chiral materials and semiconductors
Accurate light manipulation is a promising area for the exploration of new frontiers in photonics, including the manipulation of light scattering, polarization, optical phases, nonlinear optics and electron spin. There is still a lack of functional materials and waveguide structures that can effectively manipulate the optical process. Therefore, it is of vital importance to advance the development of light manipulation and the exploration of relevant application using various techniques, including the design of functional materials and waveguide structures.
The goal of this Research Topic is to advance light manipulation with a focus on the following areas: Raman imaging, image storage, carrier dynamics and nonlinear optical processes, and spin optoelectronics. This collection will allow readers from industry and academia to understand the current progress of optical manipulation and reach new ideas for future applications.
We welcome Reviews, Original Research articles, and Perspectives, in themes including but not limited to:
• Design, synthesis and characterization of novel functional materials and waveguide structures for optical process control.
• Studies on the relationship between material structure and optical properties of novel compounds
• Advances in Raman imaging with the ability of attenuation and elimination of fluorescence background
• Polarization hologram storage using organic molecules
• Studies on carrier dynamics and nonlinear optical processes in: nanostructures, fibers and 2D materials
• Spin optoelectronics studies in novel materials, such as chiral materials and semiconductors