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These papers take a look at the field of photonics and trends in the development of the technology of the field at the turn of the 21st century.
Optics and photonics technologies are ubiquitous: they are responsible for the displays on smart phones and computing devices, optical fiber that carries the information in the internet, advanced precision manufacturing, enhanced defense capabilities, and a plethora of medical diagnostics tools. The opportunities arising from optics and photonics offer the potential for even greater societal impact in the next few decades, including solar power generation and new efficient lighting that could transform the nation's energy landscape and new optical capabilities that will be essential to support the continued exponential growth of the Internet. As described in the National Research Council report Optics and Photonics: Essential Technologies for our Nation, it is critical for the United States to take advantage of these emerging optical technologies for creating new industries and generating job growth. The report assesses the current state of optical science and engineering in the United States and abroad-including market trends, workforce needs, and the impact of photonics on the national economy. It identifies the technological opportunities that have arisen from recent advances in, and applications of, optical science and engineering. The report also calls for improved management of U.S. public and private research and development resources, emphasizing the need for public policy that encourages adoption of a portfolio approach to investing in the wide and diverse opportunities now available within photonics. Optics and Photonics: Essential Technologies for our Nation is a useful overview not only for policymakers, such as decision-makers at relevant Federal agencies on the current state of optics and photonics research and applications but also for individuals seeking a broad understanding of the fields of optics and photonics in many arenas.
This volume contains papers presented at the NATO Advanced Study Institute (ASI) Photonic Crystals and Light Localization held at the Creta Maris Hotel in Limin Hersonissou, Crete, June 18-30, 2000. Photonic crystals offer unique ways to tailor light and the propagation of electromagnetic waves (EM). In analogy to electrons in a crystal, EM waves propagating in a structure with a periodically modulated dielectric constant are organized into photonic bands, separated by gaps where propagating states are forbidden. There have been proposals for novel applications ofthese photonic band gap (PBG) crystals, with operating frequencies ranging from microwave to the optical regime, that include zero threshold lasers, low-loss resonators and cavities, and efficient microwave antennas. Spontaneous emission, suppressed for photons in the photonic band gap, offers novel approaches to manipulate the EM field and create high-efficiency light-emitting structures. Innovative ways to manipulate light can have a profound iofluence on science and technology.
Optical science and engineering affect almost every aspect of our lives. Millions of miles of optical fiber carry voice and data signals around the world. Lasers are used in surgery of the retina, kidneys, and heart. New high-efficiency light sources promise dramatic reductions in electricity consumption. Night-vision equipment and satellite surveillance are changing how wars are fought. Industry uses optical methods in everything from the production of computer chips to the construction of tunnels. Harnessing Light surveys this multitude of applications, as well as the status of the optics industry and of research and education in optics, and identifies actions that could enhance the field's contributions to society and facilitate its continued technical development.
Many situations we encounter in daily life force us to recognize that we already live in the age of the information-oriented society. We also hear future prospects for life and society discussed in terms of expected advances in information and communications technologies. However, in these rapidly changing technologies, two weeks is a very long time and anything going back two years is almost a fossil. For instance, the word 'Internet' was little used two years ago, but now it attracts intense worldwide attention. This makes it very difficult to read the future with any degree of confidence. Generally, the key to creating new products and new markets is thought to lie in fostering market-oriented development. Today, though, when it is hard to grasp changes in the market place, we need to consider the case for basing our suggestions for new products and markets on readings of the future that reflect a proper understanding of the nature of technology, later 'brushing up' these suggestions with user- and market-oriented improvements. This book adopts the latter method. The book is divided into three parts. In the first, for technologies that promise to make great future advances, current efforts and achievements are described along with the directions in which these technologies are headed. In the second part of the book covers the development and production technologies that will be needed to bring new products to market. Finally, the third part explores systems based on these products and technologies, and share our practical vision of what the advanced information-oriented society will be like. Readers: engineers and technologists, IT-experts.
It is now well established that all living systems emit a weak but permanent photon flux in the visible and ultraviolet range. This biophoton emission is correlated with many, if not all, biological and physiological functions. There are indications of a hitherto-overlooked information channel within the living system. Biophotons may trigger chemical reactivity in cells, growth control, differentiation and intercellular communication, i.e. biological rhythms. The basic experimental and theoretical framework as well as the technical problems and the wide field of applications in the biotechnical, biomedical engineering, engineering, medicine, pharmacology, environmental science and basic science fields are presented in this book. To promote the dialog and mutual penetration between biophoton research and photon technology is one of the important goals for the International Conference on Biophotons & Biophotonics 2003, and is developed and presented in Biophotonics: Optical Science and Engineering in the 21st Century.
The aim of this book is to prepare students with knowledge and skills to understand the organizational needs and requirements of educational technology. Students should be able to use and manage both existing and emerging technologies effectively and be able to apply associated pedagogies to suit the environment, but also evaluate and manage technological advances of future and the requisite pedagogical shifts to achieve efficiency and effectiveness. The demand of educational technology has been rising steadily, primarily due to the fact that e-learning is a huge and significantly expanding world-wide industry. Commercial e-learning companies, training departments in large companies and organizations, computer software companies and educational institutions the world over employ large numbers of educational technology specialists. There is a strong demand for technologists who understand educational theories and for instructional designers and teachers who understand technologies. This book is targeted towards those who are looking for career in educational technology, instructional design, or media and information systems, or may want to continue their studies in graduate programs in learning and instructional technology, and those who are interested in becoming teacher in K-12 setting but need background in educational technology. This book will also act as a valuable resource in teacher education programs where primary focus on mainstream education and requires an authentic resource in instructional design and educational technology. Keeping in mind the varied needs of the organizations, employees and potential students, this book adopts a competency approach to learning and assessment. The themes and topics take a multi-disciplinary approach, and are aimed at preparing students for competent and innovative educational technology professionals.
We are at the crossroads of a new epoch: the age of electronics is being replaced by the age of photonics. This book will introduce you to the fascinating development of photonics, avoiding complicated technical terminology and instead explaining the physical fundamentals in a clear way. Based on this, important developments such as the laser and its applications in industry, research and everyday life are described. Complicated physical properties and technical details are explained to the reader in an understandable way. The authors: Dr. Patrick Steglich is lecturer for photonics and optical technologies at the Technical University of Applied Sciences Wildau and scientist at the Leibniz Institute for Innovative Microelectronics IHP in Frankfurt (Oder). Katja Heise works as an editor in Berlin. As a trained political scientist and journalist, she specializes in translating complex technical topics into simple language. The authors live together with their son and two daughters in Berlin. This Springer essential is a translation of the original German 1st edition essentials, Photonik einfach erklärt by Steglich Patrick and Katja Heise, published by Springer Fachmedien Wiesbaden GmbH, part of Springer Nature in 2019.The translation was done with the help of artificial intelligence (machine translation by the service DeepL.com). A subsequent human revision was done primarily in terms of content, so that the book will read stylistically differently from a conventional translation. Springer Nature works continuously to further the development of tools for the production of books and on the related technologies to support the authors.