Smooth, metallic surfaces create an abstract pattern with flowing and curving lines, resembling liquid metal or draped silk. The interplay of light and shadow adds depth and a futuristic feel.
Smooth, metallic surfaces create an abstract pattern with flowing and curving lines, resembling liquid metal or draped silk. The interplay of light and shadow adds depth and a futuristic feel.

Metasurfaces

Exploring optical properties through theory, experiments, and deep learning.

A complex, abstract digital image features intertwined metallic and glass-like structures, resembling a futuristic machine or art installation. Reflective surfaces create a dynamic interplay of light and shadow, with intricate details suggesting a sense of movement or transformation.
A complex, abstract digital image features intertwined metallic and glass-like structures, resembling a futuristic machine or art installation. Reflective surfaces create a dynamic interplay of light and shadow, with intricate details suggesting a sense of movement or transformation.
Metallic surface with evenly spaced small circular holes in a grid pattern. Light gradient transitioning from darker tones at the edges to a brighter center, giving a three-dimensional effect.
Metallic surface with evenly spaced small circular holes in a grid pattern. Light gradient transitioning from darker tones at the edges to a brighter center, giving a three-dimensional effect.
A digitally rendered face exhibiting a metallic and abstract texture, with distorted and mirrored features. The surface is smooth and reflective, suggesting a futuristic or alien design. Colors are rich and vibrant, with a mix of blue, gold, and hints of red. The image conveys an otherworldly and surreal appearance due to the unique texture and symmetry.
A digitally rendered face exhibiting a metallic and abstract texture, with distorted and mirrored features. The surface is smooth and reflective, suggesting a futuristic or alien design. Colors are rich and vibrant, with a mix of blue, gold, and hints of red. The image conveys an otherworldly and surreal appearance due to the unique texture and symmetry.

Innovative Optical Research Solutions

We analyze optical properties using deep learning, proposing a closed-loop optimization system validated through experiments and comparative analysis against traditional methods.

A close-up of a highly reflective, metallic surface with intricate folds and creases, giving it a fluid-like appearance. The surface captures and reflects light, creating varying shades and highlights.
A close-up of a highly reflective, metallic surface with intricate folds and creases, giving it a fluid-like appearance. The surface captures and reflects light, creating varying shades and highlights.
An abstract close-up of a reflective, metallic surface with intricate patterns resembling liquid metal or highly polished chrome. Light plays across the surface, creating dynamic and fluid reflections.
An abstract close-up of a reflective, metallic surface with intricate patterns resembling liquid metal or highly polished chrome. Light plays across the surface, creating dynamic and fluid reflections.
A series of reflective, metallic surfaces arranged in parallel lines create a repetitive, abstract pattern. The surfaces exhibit a range of shades from deep gold to amber, incorporating light reflections and dark shadows that enhance the texture and complexity.
A series of reflective, metallic surfaces arranged in parallel lines create a repetitive, abstract pattern. The surfaces exhibit a range of shades from deep gold to amber, incorporating light reflections and dark shadows that enhance the texture and complexity.

Our Research Approach

Combining theoretical analysis and experimental validation, we enhance design accuracy and computational efficiency in optical metasurfaces through innovative methodologies.

Research

Innovative optical design through deep learning analysis.

© 2025. All rights reserved.