Top-Down Design of Disordered Photonic Structures
Multidisciplinary Approaches Inspired by Quantum and Network Concepts
Samenvatting
This book introduces recent advances in the deterministic design of photonic structures, which overcome the current limitation in conventional disordered materials. It develops new concepts for disordered photonics inspired by notions in quantum mechanics, solid-state physics, mathematics and network theory, such as isospectrality, supersymmetry, graph network, small-world, de Broglie-Bohm theory, and parity-time symmetry.
The multidisciplinary approach based on the core concepts of isospectrality (Chapter 2) and metadisorder (Chapter 3) offers a new perspective on the design methodology in photonics and in general disordered structures toward top-down designs of future photonic applications: perfect bandgap with strong modal localization, switching of random waves for binary and fuzzy logics, photonic analogy of graph networks, interdimensional signal transport, robust wave functions in disordered structures, and a novel method of energy storage and phase trapping based on Bohmian photonics. This book will provide new design criteria for physicists and engineers in photonics, and inspirations for researchers in other fields.
Specificaties
Inhoudsopgave
<p>1.1 Order, Randomness, and Grey Area between them </p>
<p>1.2 Order, Randomness, and Anomalous Disorder in Photonics </p>
<p>1.3 Top-Down Design based on Eigensystems </p>
<p>1.4 References </p>
<p>Chapter 2 Designing Spectra in Disordered Photonic Structures </p>
<p>2.1 Concept of Isospectrality </p>
<p>2.2 Isospectrality by Supersymmetric Transformation </p>
<p>2.3 Application I: Supersymmetric Disorder for Photonic Bandgaps </p>
<p>2.4 Application II: Supersymmetric Switching of Random Waves </p>
<p>2.5 Isospectrality by Householder Transformation </p>
<p>2.6 Application: Interdimensional Wave Transport </p>
<p>2.7 References </p>
<p>Chapter 3 Designing Modes in Disordered Photonic Structures </p>
<p>3.1 Concept of Metadisorder </p>
<p>3.2 Metadisorder Configuration in Coupled Systems </p>
<p>3.3 Application I: Functional Wave Transport </p>
<p>3.4 Application II: Cloaking inside Coupled Systems </p>
<p>3.5 Generalization: Bohmian Photonics </p>
3.6 References <p></p>
<p>Chapter 4 Conclusion and Outlook </p>
<p>References </p><br>
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