Metamaterials for perfect absorption

This book provides a comprehensive overview of the theory and practical development of metamaterial-based perfect absorbers (MMPAs). It begins with a brief history of MMPAs which reviews the various theoretical and experimental milestones in their development. The theoretical background and fundamental working principles of MMPAs are then discussed, providing the necessary background on how MMPAs work and are constructed. There then follows a section describing how different MMPAs are designed and built according to the operating frequency of the electromagnetic wave, and how their behavior is changed. Methods of fabricating and characterizing MMPAs are then presented. The book elaborates on the performance and characteristics of MMPAs, including electromagnetically-induced transparency (EIT). It also covers recent advances in MMPAs and their applications, including multi-band, broadband, tunability, polarization independence and incidence independence. Suitable for graduate students in optical sciences and electronic engineering, it will also serve as a valuable reference for active researchers in these fields.

I. Introduction. II. Theoretical Backgrounds. II.1. Interaction of electromagnetic waves with matter. II.2. Broadband Absorber. II.3. Salisbury screen or frequency-selective surface. II.4. Metamaterial-based perfect absorber (MMPA). II.5. Effective-medium approximation. III. MMPA operating in different frequency ranges. III.1. MMPA operating in the GHz range. III.2. MMPA operating in the THz range. III.3. MMPA operating in the infrared and optical ranges. IV. MMPA, based on electromagnetically-induced transparency. V. Broadband and tunable MMPA. VI. Polarization-independent and wide-incident-angle MMPA. VII. Perspectives and future works. Index.