- ISBN 3527265155
- ISBN13 978-3527265152
- Language English
- Publisher Wiley-VCH Verlag GmbH
- Formats lrf mbr rtf lit
- Category No category
- Size ePub 1308 kb
- Size Fb2 1206 kb
- Rating: 4.9
- Votes: 380
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Chemistry and structure at interfaces: New laser and optical techniques. The presence of interfaces in a sample is revealed by cross-correlating a randomly generated optical probe beam from a GaAs light emitting diode and its generated photoacoustic signal.
Chemistry and structure at interfaces: New laser and optical techniques August 1987 · Angewandte Chemie. The technique attains a throughput advantage over previous profiling methods since it operates without an external optical. Random intensity modulation of the light source is achieved by direct current modulation of the diode.
Chemistry and structure at interfaces - new laser and optical techniques. The intense optical impulses produced by a laser have been used to generate acoustic transients in both liquids and solids. The optical impulses, which are less than 1 ?sec wide, produce transient heating at the surface of an optically absorbing material. The time profile of the resulting elastic disturbance has been studied as a function of the acoustic?boundary conditions at the absorbing.
The book is thick, up to eight hundred pages, and expensive. So, I expected a variety of optical schemes for laser/optical scanning. But I was disappointed with a great amount of topics, filling this book, which do not relate to scanning. For example, the chapters about M2 model, optical disk technology, image quality for scanning, are interesting in general but have rather distant relation to scanning
Karlheinz Graf studied chemistry at the universities of Erlangen and Mainz . 1. Experimental techniques to study monolayers.
Karlheinz Graf studied chemistry at the universities of Erlangen and Mainz, Germany. After receiving his P. in Physical Chemistry in 1997, he went as a postdoc to Santa Barbara, California working on physicochemical aspects of myelin and lung surfactant. Back in Mainz he investigated nanostructured lipopolymer films. 2 X-ray reflection and diffraction. A general yet comprehensive introduction to surface and interface science, this book focuses on essential concepts, and includes application from biotechnology to micoelectronics. Materials World, Vol 12(2), Feb 2004).
These nano-structuring techniques allow tailoring, within certain ranges . The fabricated structures show specific nonlinear optical properties in the case of picosecond laser pulses.
These nano-structuring techniques allow tailoring, within certain ranges, of the linear and nonlinear optical properties of semiconductors by material engineering. View chapter Purchase book. Electrical Properties. New applications of conjugated polymers are arising from large nonlinear absorption cross-sections in different areas. These are: optical power limiting; 3D optical storage; chemotherapy; confocal microscopy; wave guide fabrication, thermoelectricity etc. (Liang et a. 2015; Poornesh et a. 2010; Li et a. 2015; Scholdt et a. 2010).
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation. The term "laser" originated as an acronym for "light amplification by stimulated emission of radiation".
7) Characterization techniques: various spectroscopy, microscopy, and . Optical vibrational control of charge transport in organic semiconductors. Structure of the active layers of organic electronic devices as assessed by X-ray scattering and microscopy.
7) Characterization techniques: various spectroscopy, microscopy, and x-ray scattering techniques, charge mobility measurements, thermal and surface analysis, HOMO and LUMO evaluation, biomedical applications, etc. 8) Technologies of organic electronics: printing of organic materials and devices, roll-to-roll techniques, ink formulations, encapsulation, etc. 2. School Chairs. 12:30 – 13:00 I-3. Dmitry Godovsky. T-9. D. Ivanov Lomonosov Moscow State University, Russia.
Advanced laser sources and frequency conversion of lasers using nonlinear optical devices offer significant . Semiconductor lasers and solid-state lasers are promising sources of coherent optical radiation at ever-decreasing cost.
Advanced laser sources and frequency conversion of lasers using nonlinear optical devices offer significant potential for applications in semiconductor processing, reprographics, and image display.