Essentials of Modern Physics Applied to the Study of the Infrared

Essentials of Modern Physics Applied to the Study of the Infrared
Author: Armand Hadni
Publisher: Elsevier
Total Pages: 747
Release: 2016-07-29
Genre: Science
ISBN: 1483147207
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Essentials of Modern Physics Applied to the Study of the Infrared covers topics about the essentials of modern physics. The book starts with the situation of research into the infrared and the problems to which it gives rise, and then discusses instrumentation in the infrared: optics, sources, receivers and electronics. The book describes the interaction between the infrared and matter within the framework of Lorentz's general theory and in the particular case of solids using Born's theory and introducing the notion of phonons. The region of the electromagnetic spectrum and the developments in science and industry, including X-ray analysis, molecular beam experiments, radio, and television are considered. The book tackles the sources of infrared as well as infrared detectors. The text will be useful to physicists, engineers, and laboratory technicians.

Modern Techniques in Applied Molecular Spectroscopy

Modern Techniques in Applied Molecular Spectroscopy
Author: Francis M. Mirabella
Publisher: John Wiley & Sons
Total Pages: 432
Release: 1998-04-06
Genre: Science
ISBN: 9780471123590
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Dieses praxisorientierte Handbuch ist besonders für Neulinge auf dem Gebiet der Molekülspektroskopie gedacht. Es vermittelt das notwendige Grundwissen, um moderne Techniken im Laboralltag anwenden zu können, und zeigt, wie die Resultate geeignet auszuwerten sind. (04/98)

Molecular Physics

Molecular Physics
Author: Dudley Williams
Publisher: Academic Press
Total Pages: 500
Release: 2013-10-22
Genre: Science
ISBN: 148319177X
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Methods of Experimental Physics, Volume 3, Part A: Molecular Physics, Second Edition discusses the origin of the molecular theory and its application to the determination of molecular structure. This three-chapter book addresses the molecular lasing system and the dynamics of active plasma. Some of the topics covered in the book are the description of electronic states; general theory of infrared spectra; velocity of light determination; tunable devices for the generation of coherent submillimeter power; and analysis of electronic transition. Other chapters deal with the measurements of sound speeds and relaxation frequency by means of light scattering. These topics are followed by discussions of the historical introduction to spontaneous Raman scattering and the analysis of the Rayleigh Wing scattering. The last chapters describe the nuclear quadrupole hyperfine structure and the submillimeter stimulated emission devices. The book can provide useful information to chemists, physicists, students, and researchers.

Building Scientific Apparatus

Building Scientific Apparatus
Author: John H. Moore
Publisher: Cambridge University Press
Total Pages: 663
Release: 2009-06-25
Genre: Mathematics
ISBN: 0521878586
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Unrivalled in its coverage and unique in its hands-on approach, this guide to the design and construction of scientific apparatus is essential reading for every scientist and student of engineering, and physical, chemical, and biological sciences. Covering the physical principles governing the operation of the mechanical, optical and electronic parts of an instrument, new sections on detectors, low-temperature measurements, high-pressure apparatus, and updated engineering specifications, as well as 400 figures and tables, have been added to this edition. Data on the properties of materials and components used by manufacturers are included. Mechanical, optical, and electronic construction techniques carried out in the lab, as well as those let out to specialized shops, are also described. Step-by-step instruction supported by many detailed figures, is given for laboratory skills such as soldering electrical components, glassblowing, brazing, and polishing.

Wave Optics in Infrared Spectroscopy

Wave Optics in Infrared Spectroscopy
Author: Thomas G. Mayerhöfer
Publisher: Elsevier
Total Pages: 402
Release: 2024-06-01
Genre: Science
ISBN: 0443220328
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Wave Optics in Infrared Spectroscopy starts where conventional books about infrared spectroscopy end. Whereas the latter are based on the Bouguer-Beer-Lambert law, the cornerstones of this book are wave optics and dispersion theory. This gap between both levels of theory is bridged to allow a seamless transition from one to the other. Based on these foundations, the reader is able to choose which level of theory is adequate for the particular problem at hand. Advanced topics like 2D correlation analysis, chemometrics and strong coupling are introduced and viewed from a wave optics perspective. Spectral mixing rules are also considered to better understand spectra of heterogeneous samples. Finally, optical anisotropy is examined to allow a better understanding of spectral features due to orientation and orientational averaging. This discussion is based on a 4 x 4 matrix formalism, which is used not only to simulate and analyze complex materials, but also to understand vibrational circular dichroism from a (semi-) classical point of view. Wave Optics in Infrared Spectroscopy is written as a tool to reunite the fragmented field of infrared spectroscopy. It will appeal to chemists, physicists, and chemical/optical engineers. Assists the reader (including those with less physical science backgrounds) in using more of the extensive benefits that infrared spectroscopy can provide by making them better aware and informed about the higher-level theory Built on wave optics and dispersion theory versus the Bouguer-Beer-Lambert law of conventional infrared spectroscopy literature Explains the limits of lower level of theory Provides a thorough introduction to more sophisticated topics, with a smooth transition from lower to higher level theory

Progress in Precision Engineering

Progress in Precision Engineering
Author: Peter Seyfried
Publisher: Springer Science & Business Media
Total Pages: 428
Release: 2012-12-06
Genre: Technology & Engineering
ISBN: 3642844944
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by Professor Pat McKeown Cranfield Precision Engineering, UK Member of Joint Organising Committee IPES6/UME2 PROGRESS IN PRECISION ENGINEERING Metal working companies in tool making, prototype manu facture and subcontract machining often use the label "precision engineering" to indicate that they are accustomed to working to finer tolerances than is normally expected in series production. But what we are concerned with in this and our preceding international conferences is much wider and deeper than this. Precision engineering is a grouping of multidis ciplinary scientific and engineering skills and techniques, firmly based on dimensional metrology, by which a wide range of new advanced technology products is made possible. In the last 5 - 10 years we have witnessed dramatic progress in precision engineering, particularly by the rapid development of its important sub-sets, micro-engineering and nanotechnology. I t is a part icular pleasure for me and my colleagues on the Organising Committee to welcome you to Braunschweig on the occasion of this the first joint international meeting in high precision manufacturing/precision engineering to be held in Germany. Our aim is to bring together the world's leading precision engineering practitioners from areas of application as diverse as optics for astronomy, micro and nano machining process research, design and development of ul tra preclslon machine tools and metrology equipment, advanced materials, bio medical research and new sensor/transducer systems.

Clay Mineralogy: Spectroscopic and Chemical Determinative Methods

Clay Mineralogy: Spectroscopic and Chemical Determinative Methods
Author: M.H. Repacholi
Publisher: Springer Science & Business Media
Total Pages: 362
Release: 2012-12-06
Genre: Science
ISBN: 9401107270
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A knowledge of clay is important in many spheres of scientific endeav our, particularly in natural sciences such as geology, mineralogy and soil science, but also in more applied areas like environmental and mater ials science. Over the last two decades research into clay mineralogy has been strongly influenced by the development and application of a num ber of spectroscopic techniques which are now able to yield information about clay materials at a level of detail that previously would have seemed inconceivable. This information relates not only to the precise characterization of the individual clay components themselves, but also to the ways in which these components interact with a whole range of absorbate molecules. At present, however, the fruits of this research are to be found principally in a somewhat widely dispersed form in the scientific journals, and it was thus considered to be an appropriate time to bring together a compilation of these spectroscopic techniques in a way which would make them more accessible to the non-specialist. This is the primary aim of this book. The authors of the various chapters first describe the principles and instrumentation of the individual spectro scopic techniques, assuming a minimum of prior knowledge, and then go on to show how these methods have been usefully applied to clay mineralogy in its broadest context.

Infrared and Millimeter Waves V8

Infrared and Millimeter Waves V8
Author: Kenneth J. Button
Publisher: Elsevier
Total Pages: 452
Release: 1983-01-01
Genre: Technology & Engineering
ISBN: 0323149731
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Infrared and Millimeter Waves, Volume 8: Electromagnetic Waves in Matter, Part I compiles the work of several authors while focusing on certain aspects of infrared and millimeter waves, such as sources of radiation, instrumentation, and millimeter systems. This volume discusses electromagnetic waves in matter. The first chapter covers the properties of the dielectric materials, which is then followed by a discussion of far-infrared spectroscopy on high polymers. Chapter 3 tackles submillimeter solid-state physics, and Chapter 4 reviews the theory of infrared and far-infrared free-carrier behavior in semiconductors. The improvements in pyroelectric detectors are then reviewed. The sixth chapter discusses cyclotron and Zeeman transitions in photoexcited semiconductors at far infrared, while the seventh chapter discusses high temperature infrared reflectivity spectroscopy. Chapter 8 covers millimeter and submillimeter waves' interaction with giant atoms. The last chapter is about spectroscopy of InAs-GaSb layered structures. This book will be of great use to researchers or professionals whose work involves infrared and millimeter waves.