Biomimetic photonics is a burgeoning field. Biologists are finding and describing a whole menagerie of unique and astonishingly complex nano- and microstructures in fauna and flora. Material scientists are developing novel multifunctional and hierarchical structures with a wide variety of post-nano era photonics applications. Mathematicians and computer scientists are using computer models and simulations to understand the underlying principles of biomimetic structures. However, concepts, structures, and phenomena that are well known in one community are quite unknown in others.
Exploring a biomimetic approach to developing photonic devices and structures, Biomimetics in Photonics discusses not only the role of and results of biomimicry in engineering, but also the true understanding of natural processes and the application of these techniques to established technologies.
- Photonic structures in flowers, leaves and fruits and inorganic structures produced in aquatic environment by diatoms, sponges, and shells
- Mechanisms for biomineralization and how natural structures can be synthetically modified or even used as templates for artificial photonic materials
- Biological photonic structures in beetles and butterflies and their bio-inspired applications, including anti-reflecting surfaces, iridescent viruses, light reflection, metallic effects, and infrared sensors
Suitable for researchers and graduate students, the book does more than describe how to extract good design from nature—Biomimetics in Photonics highlights natural design techniques in context, allowing for a more complete modeling picture. It demonstrates the possibilities and challenges in the move from a laboratory environment to industrial scale production of biomimetic photonic structures.
Table of Contents
Photonic Structures in Plants. Biomineralization and Photonics. Biometrics of Optical Nanostructures. Photomechanic IR Receptors in Pyrophilous Beetles and Bugs. Toward Industrial Production of Biomimetic Photonic Structures. A Night Vision Algorithm Inspired by the Visual System of a Nocturnal Bee. Modeling and FDTD Calculations.
"… interesting and illuminating … a useful introduction to the field of biomimetics for photonic applications."
—MRS Bulletin, July 2014
"… provides new insights into biomimetic photonics. … The reader will find a careful discussion of a night-vision algorithm inspired by the visual system of a nocturnal bee, and a presentation of bio-inspired antireflection coatings."
—Christian Brosseau, Université de Bretagne Occidentale in Brest, France, and a Fellow of OSA