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The Chemical Physics of Solvation: Spectroscopy of Solvation (Studies in Physical and Theoretical Chemistry)
The Chemical Physics of Solvation: Spectroscopy of Solvation (Studies in Physical and Theoretical Chemistry)
The importance of solvation as a concept which covers quite generally the interactions between a molecular solute particle and a macroscopic body of surrounding solvent is well recognized. Solvation plays a major role in the distribution of elements in the geo- and hydrosphere, and most chemical and biological processes involve solvated reactants and products, the electronic and molecular structure of which are strongly determined by solvation. This three-volume monograph has been written collectively by 50 authors from 14 countries who are specialists in different areas of solvation science. Part A deals with the theory of solvation; Part B is entirely devoted to spectroscopy of solvation; and Part C covers solvation phenomena in specific physical, chemical and biological systems. The volumes will be an invaluable reference source for physicists, physical chemists and biophysicists undertaking investigations into the diversified and fascinating areas of the physics and chemical physics of solvation at postgraduate and professional research levels. -
Principles of Mossbauer Spectroscopy (Study in Chemical Physics)
Principles of Mossbauer Spectroscopy (Study in Chemical Physics) -
Molecular and Laser Spectroscopy (Springer Series in Chemical Physics)
Molecular and Laser Spectroscopy (Springer Series in Chemical Physics)
This work discusses and analyzes various spectroscopic effects in relation to the interaction mechanisms of molecules with laser fields. The contents are organized according to the aspects of molecular spectra that reflect intra- and inter-molecular interactions and the influence of the molecular environment. After a brief summary of molecular energy levels and spectra, the discussion centres round molecular spectroscopy, with treatments of the coarse and fine structures of molecular two-photon spectra, Doppler-free spectra via non-linear uncoupling interactions of lasers with molecules, the spectral effects of non-linear coupling interactions of lasers with molecules and methods of selective simplification and identification of molecular spectra. The theory is given throughout in terms of the density matrix equations. Concepts are illustrated by examples based on simple molecules. -
Photons Magnetic Field Optical Nmr Spectroscopy (Series in Contemporary Chemical Physics)
Photons Magnetic Field Optical Nmr Spectroscopy (Series in Contemporary Chemical Physics)
This book is a collection of papers on a fundamentally new concept in physics - the photon's magnetic field, beta^ pi. It discusses various applications of beta^ pi to predict the existence of new magneto-optic phenomena and to reinterpret some of the fundamentals of optics in terms of beta^ pi of the photon. One of these new phenomena, optical NMR spectroscopy, has already been verified experimentally, leading to a major new analytical technique of widespread potential utility. -
Principles of Ultraviolet Photoelectron Spectroscopy (Wiley-Interscience monographs in chemical physics)
Principles of Ultraviolet Photoelectron Spectroscopy (Wiley-Interscience monographs in chemical physics) -
Vibrational Spectroscopy of Adsorbates (Springer Series in Chemical Physics, V. 15.)
Vibrational Spectroscopy of Adsorbates (Springer Series in Chemical Physics, V. 15.) -
Vibrational spectroscopy of adsorbates (Springer series in chemical physics)
Vibrational spectroscopy of adsorbates (Springer series in chemical physics) -
Theoretical Atomic Spectroscopy (Cambridge Monographs on Atomic, Molecular and Chemical Physics)
Theoretical Atomic Spectroscopy (Cambridge Monographs on Atomic, Molecular and Chemical Physics)
Spectra are fundamental characteristics of atoms and ions, and are the main source of information on their structure and properties. This monograph presents a complete guide to the theory of modern spectroscopy of atoms. The book describes the contemporary state of the theory of many-electron atoms and ions, the peculiarities of their structure and spectra, the processes of their interaction with radiation, and some of the applications of atomic spectroscopy. It contains a large number of new results, which have been mainly published in Russian and are therefore almost unknown to Western scientists. A graduate level text and research reference, this book is aimed primarily at atomic physicists and physical chemists, but will also be of value to physicists and chemists in other areas who use spectroscopy in their work. -
Photodissociation Dynamics: Spectroscopy and Fragmentation of Small Polyatomic Molecules (Cambridge Monographs on Atomic, Molecular and Chemical Physics)
Photodissociation Dynamics: Spectroscopy and Fragmentation of Small Polyatomic Molecules (Cambridge Monographs on Atomic, Molecular and Chemical Physics)
This text elucidates the achievements in calculating photodissociation cross sections and fragment state distributions from first principles, starting from multi-dimensional potential energy surfaces and the Schrödinger equation of nuclear motion. Following an extended introduction in which the various types of observables are outlined, the next four chapters summarize the basic theoretical tools, namely the time-independent and time-dependent quantum mechanical approaches as well as the classical picture of photodissociation. The discussion of absorption spectra, diffuse vibrational structures, the vibrational and rotational state distributions of the photofragments form the core of the book. More specific topics such as the dissociation of vibrationally excited molecules, emission during dissociation, or nonadiabatic effects are discussed in the last third of the book. -
Shpol'Skii Spectroscopy and Other Site Selection Methods: Applications in Environmental Analysis, Bioanalytical Chemistry and Chemical Physics
Shpol'Skii Spectroscopy and Other Site Selection Methods: Applications in Environmental Analysis, Bioanalytical Chemistry and Chemical Physics
Recent technological breakthroughs, most notably in the field of lasers as well as detection and data processing, have made it possible to apply high-resolution molecular spectroscopy to such areas as environmental science, bioanalysis, and chemical physics. This book describes recent advances and applications of high-resolution molecular spectroscopy in low temperature solid matrices.
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