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Dieses fortgeschrittene Lehrbuch der Molekülphysik wendet sich an Studenten und Doktoranden aus der Chemie und der Physik; der Autor setzt Grundkenntnisse der Atomphysik und Quantenmechanik voraus. Erklärt werden die Eigenschaften (und, daraus abgeleitet, die Spektren) zwei- und mehratomiger Moleküle - im ersten Teil des Textes vorwiegend theoretisch, im zweiten Teil anwendungsspezifisch unter Berücksichtigung der in der Physik, Chemie, Biologie und Materialwissenschaft eingesetzten Verfahren, insbesondere der Laser-, Fourier-, NMR- und ESR-Spektroskopie.
Auteur
Professor Wolfgang Demtroder studied physics and mathematics, and received his PhD degree in 1961 from the University of Bonn. After working as an assistant professor and researcher at the University of Freiburg until 1967, he went as a visiting fellow to JILA in Boulder, Colorado. In 1970 he accepted a post as full professor at the newly founded University of Kaiserslautern, Germany, where he still works. Professor Demtroder was awarded the Max-Born-Award of the English and German Physical Society in 1995. He is the author of about 150 scientific papers and several books.
Texte du rabat
This advanced textbook comprehensively explains important principles of diatomic and polyatomic molecules and their spectra in two separate, distinct parts. The first part concentrates on the theoretical aspects of molecular physics, whereas the second part of the book covers experimental techniques, i.e. laser, Fourier, NMR, and ESR spectroscopies, used in the fields of physics, chemistry, biology, and material science.
Appropriate for undergraduate and graduate students in physics and chemistry with a knowledge of atomic physics and familiar with the basics of quantum mechanics.
Résumé
The richly illustrated book comprehensively explains the important principles of diatomic and polyatomic molecules and their spectra in two separate, distinct parts. The first part concentrates on the theoretical aspects of molecular physics, such as the vibration, rotation, electronic states, potential curves, and spectra of molecules. The different methods of approximation for the calculation of electronic wave functions and their energy are also covered. The introduction of basics terms used in group theory and their meaning in molecular physics enables an elegant description of polyatomic molecules and their symmetries. Molecular spectra and the dynamic processes involved in their excited states are given its own chapter. The theoretical part then concludes with a discussion of the field of Van der Waals molecules and clusters.
The second part is devoted entirely to experimental techniques, such as laser, Fourier, NMR, and ESR spectroscopies, used in the fields of physics, chemistry, biology, and material science. Time-resolved measurements and the influence of chemical reactions by coherent controls are also treated. A list of general textbooks and specialized literature is provided for further reading.
With specific examples, definitions, and notes integrated within the text to aid understanding, this is suitable for undergraduates and graduates in physics and chemistry with a knowledge of atomic physics and familiar with the basics of quantum mechanics.
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