Small Scale Optics
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The behavior of light in small scale optics or nano/micro optical devices has shown promising results, which can be used for basic and applied research, especially in nanoelectronics. Small Scale Optics presents the use of optical nonlinear behaviors for spins, antennae, and whispering gallery modes within micro/nano devices and circuits, which can be used in many applications. This book proposes a new design for a small scale optical device—a microring resonator device. Most chapters are based on the proposed device, which uses a configuration know as a PANDA ring resonator. Analytical and numerical methods demonstrate that many applications can be exploited using this device, in particular when it is coated with metallic material.
The book begins with the background and description of the PANDA ring resonator. The authors examine optical bistability in microring resonators and test the analytical results with those predicted by the OptiFDTD software package. They then describe their new design for a microring resonator device, which can be used to generate four forms of light on a chip, while also allowing the storing and harvesting of trapped atoms/molecules. The four behaviors of light, for instance, fast, slow, stopping, and storing, can be manipulated and seen simultaneously by using the PANDA ring planar waveguide, which can be fabricated and tested on-chip.
Chapters examine optical spin, nano-antennas, optical mesh networks, micro-optical gyroscopes, and spin transport networks. They also address applications for optical devices, including molecular motors for drug discovery, short pulse lasers for treatment of cancer, microsurgery, nano-antenna use in radiotherapy, and neuron cell communications. There are many other possibilities of applications for the PANDA ring resonator, such as quantum coding, optical tweezers, and stopping light, which will play an important role in future optical devices.
Table of Contents
Nonlinear PANDA Ring. Optical Bistability. Fast, Slow, Stopping, and Storing Light. Optical Spin. Nano-Antennas. Optical Mesh Network. Micro-Optical Gyroscope. Spin Transport Networks. Molecular Motor for Drug Delivery. Cancer Cell Treatment by Short Pulse Laser. Microsurgery. Radiotherapy Using Nano-Antennas. Neuron Cell Communications. Future Challenges.
Preecha P. Yupapin, Ph.D., has been working with the Department of Physics, Faculty of Science, King Mongkut’s Institute of Technology, Ladkrabang, Bangkok, Thailand since 1985. Since 2007, he has been a visiting professor with the Department of Physics, Faculty of Science, Universiti Teknologi Malaysia. Dr. Yupapin has authored and coauthored more than 550 research papers in the Google Scholar database, 35 papers in Pubmed, and 35 chapters and books. His research interests are in nanophysics, nanoelectronics, spintronics, nanocommunication and networks, molecular electronics, nanomedicine and beauty, nanoenergy, quantum information, and human engineering.
Jalil Ali, Ph.D., is a professor of photonics at the Institute of Advanced Photonics Science, ESci Nano Research Alliance, and the Physics Department of Universiti Teknologi Malaysia (UTM). He has authored and coauthored more than 400 technical papers published in international journals, five books, and a number of book chapters. Dr. Ali’s areas of interest are in FBGs, optical solitons, fiber couplers, and nanowaveguides. He is currently the head of the Nanophotonics Research Group, ESci Nano Research Alliance, UTM.