Tag: Optical

Free Download Benjamin J. Fuentes, "Optical Lattices: Structures, Atoms and Solitons "
English | ISBN: 1613249373 | 2012 | 241 pages | PDF | 9 MB
An optical lattice is formed by the interference of counter-propagating laser beams, creating a spatially periodic polarization pattern. The resulting periodic potential may trap neutral atoms via the Stark shift. Atoms are cooled and congregate in the locations of potential minima. The resulting arrangement of trapped atoms resembles a crystal lattice. This book presents current research from across the globe in the study of optical lattices, including optical lattices prepared by laser treatment on polymers, peculiarities of magnetooptical properties in crystals with mixed valence centers; the interplay of optical lattices with localized nonlinearity and matter wave dark solitons in optical superlattices..

Free Download Ju Han Lee, "High Nonlinearity Optical Fiber Technology"
English | ISBN: 1606926748 | 2009 | 96 pages | PDF | 6 MB
Book by Lee, Ju Han

Free Download Crochet Illusion Blankets: 15 patterns for optical illusion crochet blankets, afghans and throws by Helen Smith
English | June 4, 2024 | ISBN: 1446312690 | 128 pages | MOBI | 24 Mb
A collection of eye-catching 3D effect crochet patterns for different sized blankets and throws, that all have an optical illusion effect. These cleverly designed geometric blankets look impressive but are actually simple to make because the designer only uses one technique, intarsia crochet, and simple stitches.

Free Download Saurabh Prasad, Lori M. Bruce, Jocelyn Chanussot, "Optical Remote Sensing: Advances in Signal Processing and Exploitation Techniques"
English | 2011 | pages: 344 | ISBN: 3642142117 | PDF | 17,7 mb
Optical remote sensing relies on exploiting multispectral and hyper spectral imagery possessing high spatial and spectral resolutions respectively. These modalities, although useful for most remote sensing tasks, often present challenges that must be addressed for their effective exploitation. This book presents current state-of-the-art algorithms that address the following key challenges encountered in representation and analysis of such optical remotely sensed data. Challenges in pre-processing images, storing and representing high dimensional data, fusing different sensor modalities, pattern classification and target recognition, visualization of high dimensional imagery.

Free Download Optical Network Communications
by Sanjay Yadav
English | January 6, 2025 | ISBN: 000867549X | 342 Pages | epub | 26,96 MB

Free Download Cross-Layer Design in Optical Networks By Suresh Subramaniam, Maïté Brandt-Pearce (auth.), Suresh Subramaniam, Maïté Brandt-Pearce, Piet Demeester, Chava Vijaya Saradhi (eds.)
2013 | 380 Pages | ISBN: 1461456703 | PDF | 9 MB
This work addresses the topic of optical networks cross-layer design with a focus on physical-layer-impairment-aware design. Contributors captures both the physical-layer-aware network design as well as the latest advances in service-layer-aware network design. Treatment of topics such as, optical transmissions which are prone to signal impairments, dense packing of wavelengths, dispersion, crosstalk, etc., as well as how to design the network to mitigate such impairments, are all covered.

Free Download Epioptics: Linear and Nonlinear Optical Spectroscopy of Surfaces and Interfaces By John McGilp (auth.), J. F. McGlip, D. Weaire, C. H. Patterson (eds.)
1995 | 230 Pages | ISBN: 3642798225 | PDF | 9 MB
The study of condensed matter using optical techniques, where photons act as both probe and signal, has a long history. It is only recently, however, that the extraction of surface and interface information, with submonolayer resolution, has been shown to be possible using optical techniques (where "optical" applies to electromagnetic radiation in and around the visible region of the spectrum). This book describes these "epioptic" techniques, which have now been quite widely applied to semiconductor surfaces and interfaces. Particular emphasis in the book is placed on recent studies of submonolayer growth on well-characterised semiconductor surfaces, many of which have arisen from CEC DGJGII ESPRIT Basic Research Action No. 3177 "EPIOPTIC", and CEU DGIII ESPRIT Basic Research Action No. 6878 "EASI". Techniques using other areas of the spectrum such as the infra-red region (IR spectroscopy, in its various surface configurations), and the x-ray region (surface x-ray diffraction, x-ray standing wave), are omitted. The optical techniques described use simple lamp or small laser sources and are thus, in principle, easily accessible. Epioptic probes can provide new information on solid-gas, solid-liquid and liquid-liquid interfaces. They are particularly suited to growth monitoring. Emerging process technologies for fabricating submicron and nanoscale semiconductor devices and novel multilayer materials, whether based on silicon or compound semiconductors, all require extremely precise control of growth at surfaces. In situ, non-destructive, real-time monitoring and characterisation of surfaces under growth conditions is needed for further progress. Both atomic scale resolution, and non-destructive characterisation of buried structures, are required.

Free Download Foundations of Nonlinear Optical Microscopy
by Eric Olaf Potma
English | 2024| ISBN: 111981488X | 441 pages | True PDF | 10.07 MB

Free Download Computational Optical Imaging: Principle and Technology (Advances in Optics and Optoelectronics) by Zhengjun Liu, Xuyang Zhou, Shutian Liu
English | April 23, 2024 | ISBN: 9819714540 | 423 pages | MOBI | 46 Mb
This book highlights a comprehensive introduction to the principles and calculation methods of computational optical imaging. Integrating optical imaging and computing technology to achieve significant performance improvements, computational optical imaging has become an active research field in optics. It has given rise to the emerging of new concepts such as computational imaging, computational measurement and computational photography. As high-performance image detectors make image measurements discrete and digital, images are mostly recorded in the form of discrete data, almost replacing the continuous medium used for pattern recording. Computational optical imaging technology has become an effective way for people to study microscopic imaging. At present, different imaging systems are composed of continuous optical elements such as lenses and prisms or discrete optical elements such as spatial light modulators or digital micro-mirror devices. The current computing technology has permeated all aspects of imaging systems and gradually promotes the digitization of optical imaging systems. This book summarizes the representative work done in this field and introduces the latest results. Computing technology plays an important bridging role between theories of optics and experimental systems, which inspires more comprehensive and in-depth research. It has the advantages of high repeatability, flexibility, strong computing power and low cost. In this multidisciplinary field, researchers in computer science, optics and information science have joined together to extend its depth and breadth. Targeting cutting-edge issues to be solved in computational optics, this book introduces a variety of methods that involve theoretical innovations and technical breakthroughs in imaging resolution, the field of view, imaging speed, and computing speed. It intends to provide a handy reference and technical support for graduate students, researchers and professionals engaged in the study and practice of computational optical imaging.

Free Download Biomedical Optical Imaging From Nanoscopy to Tomography by Jun Xia, Regine Choe
English | 2022 | ISBN: 0735423768 | 362 pages | PDF | 17 Mb
Focusing on the practice of biophotonic imaging, Biomedical Optical Imaging: From Nanoscopy to Tomography covers mainstream techniques and their applications and features up-to-date information on their use. The book covers nanoscopic imaging (super-resolution microscopy), microscopic imaging, and macroscopic imaging (optical tomography) in detail. The book also covers the history of biomedical optical imaging, photon-tissue interactions, and an overview of future directions.