Low-Temperature Thermal and Vibrational Properties of Disordered Solids: A Half-Century of Universal “Anomalies” of Glasses
Low-temperature Thermal And Vibrational Properties Of Disordered Solids: A Half-century Of Universal "Anomalies" Of Glasses
by Miguel A Ramos;
English | 2022 | ISBN: 1800612575 | 505 pages | True PDF | 19.3 MB
by Miguel A Ramos;
English | 2022 | ISBN: 1800612575 | 505 pages | True PDF | 19.3 MB
This book, edited by M. A. Ramos and contributed by several reputed physicists in the field, presents a timely review on low-temperature thermal and vibrational properties of glasses, and of disordered solids in general. In 1971, the seminal work of Zeller and Pohl was published, which triggered this relevant research field in condensed matter physics. Hence, this book also commemorates about 50 years of that highlight with a comprehensive, updated review.
In brief, glasses (firstly genuine amorphous solids but later on followed by different disordered crystals) were found to universally exhibit low-temperature properties (specific heat, thermal conductivity, acoustic and dielectric attenuation, etc.) unexpectedly very similar among them — and very different from those of their crystalline counterparts.
These universal 'anomalies' of glasses and other disordered solids remain very controversial topics in condensed matter physics. They have been addressed exhaustively in this book, through many updated experimental data, a survey of most relevant models and theories, as well as by computational simulations.
Contents:
- Introduction: About 50 Years of Two-Level Systems and Boson Peak (Miguel A Ramos)
- Low-Temperature Specific Heat of Glasses and Disordered Crystals (Miguel A Ramos)
- Thermal Conductivity of Glasses and Disordered Crystals (A I Krivchikov and A Jeżowski)
- Two-Level Systems and the Tunneling Model: A Critical View (Clare C Yu and Hervé M Carruzzo)
- Exceptions Leading to a New Theory of Universality: Amorphous Solids without Glassy Properties (M Molina-Ruiz and F Hellman)
- Vibrational Dynamics of Non-Crystalline Solids (Giacomo Baldi, Aldo Fontana and Giulio Monaco)
- Low-frequency Vibrational Spectroscopy of Glasses (Benoit Rufflé, Marie Foret and Bernard Hehlen)
- The Soft-Potential Model and Its Extensions (U Buchenau)
- Heterogeneous Elasticity: The Tale of the Boson Peak (Walter Schirmacher and Giancarlo Ruocco)
- Computational Simulations of the Vibrational Properties of Glasses (Hideyuki Mizuno and Atsushi Ikeda)
- Topological Phases of Amorphous Matter (Adolfo G Grushin)
Readership: Graduate students and researchers in Condensed Matter Physics, Materials Science and Chemical Physics.