Micro-optics : elements, systems and applications
Author(s)
Bibliographic Information
Micro-optics : elements, systems and applications
Taylor & Francis Ltd., c1997
Available at 15 libraries
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  Kumamoto
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
This text examines the technology behind the plethora of modern industrial and domestic technologies which incorporate micro-optics eg. CDs, cameras, automated manufacturing systems, mobile communications etc. It includes a simple but comprehensive introduction to micro-optical developments design, and an overview of fabrication and replication technology. The theoretical, practical and industrial developments in micro-scale optoelectronics continue apace in the late 1990s. In this book, a distinguished group of physicists and engineers describe the current state of research and applications in micro-optics. It provides the theoretical background and an overview of current technology, with several chapters taking a deeper look at specific recent applications and future trends. The book concentrates on diffractive and refractive micro- optical elements, such as lenses, fan-out gratings, optimized phase elements and polarisers. Sections are included on the simulation and optimization of design for micro-optics and subsequently the efficient transformation from design to real optical elements, using techniques such as e-beam writing, laser beam writing, lithography, etching and thin film deposition.
Table of Contents
- Design of refractive and diffractive micro-optics, H.P. Herzig
- diffaction theory of microrelief gratings, J. Turunen
- binary optics fabrication, M.B. Stern
- direct writing of continuous-relief micro-optics, M.T. Gale
- refractive lenslet arrays, M.C. Hutley
- replication, M.T. Gale
- free space integrated optics, J. Jahns
- stacked micro-optic systems, W. Singer and K.H. Brenner
- laser beam shaping, J. Leger
- hybrid refractive/diffractive optics, G.P. Behrmann and J.N. Mait
- array generators, J.N. Gait
- polarization transformation high spatial frequency surface relief, C.W. Haggans and R.K. Kostuk.
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