| Description |
1 online resource (ix, 153 pages) : illustrations |
| Series |
Multifunctional thin film series ; MUTF 1 |
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Multifunctional thin film series ; 1.
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| Contents |
Cover -- Table of Contents -- Preface -- Chapter 1 Polarization-Graded Ferroelectrics: The Dielectric Analogues of Semiconductor Junction Devices -- 1. Introduction -- 2. Review of Simple Semiconductor Structures -- 3. Simple Graded Ferroelectric Devices -- 4. Further Analogies Between Semiconductor Junction Devices and Polarization-Graded Ferroelectrics -- 5. Graded Ferroics: The General Case -- Chapter 2 Thermodynamic Theory of Polarization-Graded Ferroelectrics -- 1. Introduction -- 2. LGD Theory -- 3. Ferroelectric Hysteresis -- 4. LGD Theory for Graded Ferroelectrics -- 4.1. Depoling due to Polarization Fluctuations -- 4.2. Electrical Domains and Interlayer Coupling in Layered Ferroelectrics -- 4.3. Internal Stresses due to a Polarization Gradient -- 4.4. Polarization Profile and Charge Offset -- 4.5. Internal Stresses in Graded Thin Films -- 4.6. Dielectric and Pyroelectric Response -- 5. Polarization dynamics -- Chapter 3 Graded Ferroelectric Devices (GFDs) -- 1. Introduction -- 2. Ferroelectric Material Systems -- 3. Growth of Graded Ferroelectric Structures -- 4. Other Polarization-graded Ferroelectrics -- 5. Temperature-gradient Induced GFDs -- 6. Strain-gradient Induced GFDs -- 7. Concluding Remarks -- Chapter 4 Trans-capacitive Devices: Transpacitors -- 1. Introduction -- 2. Trans-resistive Elements (Transistors): Power Gain Devices -- 3. Transpacitors -- 4. Pyroelectric Sensors -- 5 . Other Trans-capacitive Devices -- Chapter 5 Graded Ferroics and Transponents -- 1. Introduction -- 2. Generalized Theory -- 3. Ferromagnets -- 4. Ferroelastics -- 5. Superconductors -- 6. Multi-ferroics -- 7. Other Functional and Smart Materials Systems -- References |
| Summary |
"Graded Ferroelectrics, Transpacitors and Transponents details the experimental and theoretical aspects of newly emerging ferroelectric devices, and their extensions to other ferroic systems such as: ferromagnetics, ferroelastics, piezoelectrics, etc. The theory and experimental results pertaining to non-homogeneous active ferroic devices and structures are presented." "The primary focus of the book is directed toward polarization-graded ferroelectrics and their active components - transpacitors; however, the findings here are quite general. The theory of graded ferroics is put on a solid foundation in Chapters 2 and 5, whereas much of the introductory material relies more heavily upon analogy. This was done so as to provide the reader with an intuitive approach to graded ferroics. Heterogeneous ferroics are shown as logical extensions of passive semiconductor junction devices such as p-n and n-p diodes and their active manifestations: transistors, to transpacitors, transductors, translastics and ultimately to the general active ferroic elements, transponents."--Jacket |
| Analysis |
chemie |
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chemistry |
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materialen |
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materials |
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condenseren |
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condensation |
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optische instrumenten |
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optical instruments |
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oppervlakten |
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surfaces |
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grensvlak |
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interface |
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materiaalkunde |
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materials science |
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optica |
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optics |
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Chemistry (General) |
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Chemie (algemeen) |
| Bibliography |
Includes bibliographical references (pages 136-147) and index |
| Notes |
Print version record |
| In |
Springer e-books |
| Subject |
Ferroelectric crystals.
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Feroelectricity
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Ferroelectric devices.
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SCIENCE -- Physics -- Electromagnetism.
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SCIENCE -- Physics -- Electricity.
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Ferroelectric devices.
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Ferroelectric crystals.
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Feroelectricity.
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Chimie.
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Science des matériaux.
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Ferroelectric crystals
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Ferroelectric devices
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| Form |
Electronic book
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| Author |
Alpay, S. Pamir.
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| ISBN |
9780387233208 |
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0387233202 |
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0387233113 |
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9780387233116 |
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6610263183 |
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9786610263189 |
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