Defects and Surface-Induced Effects in Advanced Perovskites 2000 Edition Contributor(s): Borstel, Gunnar (Editor), Krumins, Andris (Editor), Millers, Donats (Editor) |
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ISBN: 0792362160 ISBN-13: 9780792362166 Publisher: Springer OUR PRICE: $104.49 Product Type: Hardcover - Other Formats Published: March 2000 Annotation: Complex oxide materials, especially the ABO3-type perovskite materials, have been attracting growing scientific interest due to their unique electro-optical properties, leading to photorefractive effects that form the basis for such devices as holographic storage, optical data processing and phase conjugation. The optical and mechanical properties of non-metals are strongly affected by the defects and impurities that are unavoidable in any real material. Nanoscopically sized surface effects play an important role, especially in multi-layered ABO3 structures, which are good candidates for high capacity memory cells. The 51 papers presented here report the latest developments and new results and will greatly stimulate progress in high-tech technologies using perovskite materials. |
Additional Information |
BISAC Categories: - Science | Physics - Crystallography - Science | Physics - Optics & Light - Science | Mechanics - General |
Dewey: 548.8 |
LCCN: 00026282 |
Series: NATO Science Partnership Subseries: 3 |
Physical Information: 1.13" H x 6.14" W x 9.21" (1.96 lbs) 492 pages |
Descriptions, Reviews, Etc. |
Publisher Description: Complex oxide materials, especially the ABO3-type perovskite materials, have been attracting growing scientific interest due to their unique electro-optical properties, leading to photorefractive effects that form the basis for such devices as holographic storage, optical data processing and phase conjugation. The optical and mechanical properties of non-metals are strongly affected by the defects and impurities that are unavoidable in any real material. Nanoscopically sized surface effects play an important role, especially in multi-layered ABO3 structures, which are good candidates for high capacity memory cells. The 51 papers presented here report the latest developments and new results and will greatly stimulate progress in high-tech technologies using perovskite materials. |