Inverse solution of electromagnetic response of metamaterials

Combining theory and experiments for advanced metamaterial analysis and model validation.

Innovative Research in Electromagnetics and Metamaterials

We specialize in theoretical analysis and experimental validation of electromagnetic responses in metamaterials, enhancing model performance through innovative frameworks and comparative evaluations.

Intricate patterns of light and shadow cast on a textured surface, creating a rippling effect. A metallic mesh structure is positioned at an angle in the foreground, its hexagonal openings allowing light to filter through, resulting in a dynamic interplay of colors and forms.

Transformative insights into electromagnetic responses.

Research Team

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Advanced Electromagnetic Solutions

Combining theory and experiments for innovative metamaterial models with enhanced efficiency and accuracy.

An intricate lattice of metallic mesh forms a tunnel-like structure, with interwoven wires creating an abstract pattern. Some wires are highlighted in red, creating a contrast against the predominant silver. The mesh appears to extend and twist, forming a dynamic, curved form.

Model Validation and Testing

Conducting experiments to validate electromagnetic response data and model performance in real scenarios.

Comparative Efficiency Analysis

Evaluating computational efficiency and solving accuracy against traditional inverse solving methods.

Innovative Design Framework

Proposing a new framework for inverse solving models in metamaterials based on theoretical analysis.

Metamaterial Research

Innovative analysis and validation of electromagnetic responses in metamaterials.

An inverted image of a large electricity transmission tower made of metal. The intricate lattice structure stands out sharply against a dark, cloudy background.

Model Evaluation

Comparative experiments assess computational efficiency and accuracy against traditional methods, enhancing understanding of electromagnetic response data through advanced modeling techniques and experimental validation.

A close-up view of a metal mesh with a hexagonal pattern creating a honeycomb-like structure. The mesh is in a dark color against a black background, showcasing its intricate geometric design.

Experimental Validation

Conducting experiments with public datasets to validate model performance in various electromagnetic response scenarios, ensuring robust and reliable outcomes through rigorous testing and analysis.