
This book provides a straightforward introduction to the spectroscopy of diatomic molecules and is written at the level of intermediate undergraduate courses in physical chemistry and chemical physics. Following a general introduction to the subject, the second chapter lays out the essential quantum mechanical tools required to understand spectroscopy. Very little previous knowledge is assumed; mathematics is kept to a minimum, the treatment being only semi-quantitative. The following chapter uses this quantum mechanical framework to establish the selection rules which govern spectroscopic transitions. Chapters 4 - 7 describe the various branches of spectroscopy covered by the book; rotational, rotational - vibrational, Raman, and electronic spectroscopy. Quantum mechanics is used to derive formulae for the various energy levels involved and for the relative intensities of different types of transition. From these, the appearances of the different types of spectra are derived. The molecular parameters on which these spectra depend are defined and the structural information which can be derived from these is discussed.
This book investigates the fundamental principles of molecular spectroscopy, specifically focusing on the behavior of diatomic molecules. John M. Brown, an experienced academic in the field, utilizes a semi-quantitative approach to bridge the gap between basic quantum mechanics and practical spectroscopic analysis. By minimizing complex mathematical derivations, the text provides a accessible framework for intermediate undergraduate students to interpret molecular energy levels and transition intensities.
What You Will Find
Experts and educators frequently cite this text as a reliable, concise resource for undergraduate physical chemistry curricula. Readers often note the clarity of the prose and the effectiveness of the semi-quantitative approach in making complex physical concepts manageable for students.
Page Count:
96
Publication Date:
1998-11-12
Publisher:
Oxford University Press
ISBN-10:
019855785X
ISBN-13:
9780198557852
No comments yet. Be the first to share your thoughts!