| Multipole Theory in Electromagnetism: Classical, Quantum, and Symmetry Aspects, with Applications Contributor(s): Raab, R. E. (Author), de Lange, O. L. (Author) |
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ISBN: 0198567278 ISBN-13: 9780198567271 Publisher: Oxford University Press, USA OUR PRICE: $228.00 Product Type: Hardcover - Other Formats Published: January 2005 Annotation: This book provides an introduction to the classical, quantum and symmetry aspects of multipole theory, demonstrating the successes of the theory and also its unphysical aspects. It presents a transformation theory, which removes these unphysical properties. The book will be of interest to physics students wishing to advance their knowledge of multipole theory, and also a useful reference work for molecular and optical physicists, theoretical chemists working on multipole effects, solid state physicists studying the effects of electromagnetic fields on condensed matter, engineers and applied mathematicians with interests in anisotrpoic materials. An interesting recent development has been the increasing use of computer calculations in applications of multipole theory. The book should assist computational physicists and chemists wishing to work in this area to acquire the necessary background in multipole theory. |
| Additional Information |
| BISAC Categories: - Science | Physics - Electromagnetism - Science | Physics - General - Language Arts & Disciplines | Linguistics - General |
| Dewey: 537.1 |
| LCCN: 2005297163 |
| Physical Information: 0.69" H x 6.38" W x 9.54" (1.20 lbs) 248 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: This book provides an introduction to the classical, quantum and symmetry aspects of multipole theory, demonstrating the successes of the theory and also its unphysical aspects. It presents a transformation theory, which removes these unphysical properties. The book will be of interest to physics students wishing to advance their knowledge of multipole theory, and also a useful reference work for molecular and optical physicists, theoretical chemists working on multipole effects, solid state physicists studying the effects of electromagnetic fields on condensed matter, engineers and applied mathematicians with interests in anisotrpoic materials. An interesting recent development has been the increasing use of computer calculations in applications of multipole theory. The book should assist computational physicists and chemists wishing to work in this area to acquire the necessary background in multipole theory. |