Introduction to Ferroic MaterialsFerroic materials are important, not only because of the improved understanding of condensed matter, but also because of their present and potential device applications. This book presents a unified description of ferroic materials at an introductory level, with the unifying factor being the occurrence of nondisruptive phase transitions in crystals that alter point-group symmetry. The book also aims to further systemitize the subject of ferroic materials, employing some formal, carefully worded, definitions and classification schemes. The basic physical principles leading to the wide-ranging applications of ferroic materials are also explained, while placing extra emphasis on the utilitarian role of symmetry in materials science. |
Contents
GENERAL CONSIDERATIONS | 1 |
OVERVIEW | 7 |
CRYSTALLOGRAPHY | 27 |
CRYSTAL PHYSICS | 73 |
TICE | 103 |
PHASE TRANSITIONS IN CRYSTALS | 124 |
ASE TRANSITIONS | 131 |
CLASSIFICATION OF FERROIC MATERIALS FERRO | 189 |
FERROELASTIC CRYSTALS | 421 |
SECONDARY AND HIGHERORDER FERROICS | 487 |
POLYCRYSTAL FERROICS AND COMPOSITE FERRO | 503 |
APPLICATIONS OF FERROIC MATERIALS | 531 |
CRYSTALS AND THE WAVEVECTOR SPACE | 538 |
EPILOGUE | 569 |
B GROUP THEORY | 577 |
THE CURIE SHUBNIKOV PRINCIPLE | 603 |
trices | 273 |
4 | 280 |
MENT OF DOMAIN WALLS | 294 |
DOMAIN WALLS | 297 |
FERROMAGNETIC CRYSTALS | 301 |
FERROELECTRIC CRYSTALS | 351 |
THE FOURIER TRANSFORM | 613 |
E THERMODYNAMICS AND STATISTICAL MECHAN | 619 |
643 | |
695 | |
711 | |
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Common terms and phrases
3-dimensional a₁ Aizu applied atoms axis BaTiO3 behaviour bicrystal Brillouin zone components composition configuration continuous phase transition coordinate corresponding coset critical exponents crystal structure crystallographic crystallographic point groups defined denote described dielectric diffraction direction displacement domain pair domain structure domain walls effect electric field equation example ferroelastic ferroelastic phase ferroelectric ferroelectric phase ferrogyrotropic ferroic materials ferroic phase transitions ferromagnetic fluctuations free energy function Hamiltonian interaction interface invariant inversion ions isotropy Janovec Landau theory macroscopic martensitic nonzero occur optical order parameter orientation parent phase phase transition Phys physical plane point group point-group symmetry prototype symmetry prototypic phase representation result rotation Salje soft mode space group species spin glasses spontaneous polarization spontaneous strain structural phase transitions subgroup SUGGESTED READING symmetry elements symmetry group symmetry operators temperature tensor property theorem thermodynamic tion Toledano transformation twins unit cell vector Wadhawan wavevector zero