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Download Fundamentals of Solid-State Phase Transitions, Ferromagnetism and Ferroelectricity fb2, epub

by Yuri Mnyukh

Download Fundamentals of Solid-State Phase Transitions, Ferromagnetism and Ferroelectricity fb2, epub

ISBN: 0759602190
Author: Yuri Mnyukh
Language: English
Publisher: 1st Book Library (June 1, 2001)
Pages: 376
Category: Physics
Subcategory: Science
Rating: 4.3
Votes: 609
Size Fb2: 1393 kb
Size ePub: 1596 kb
Size Djvu: 1434 kb
Other formats: lrf lrf azw txt


Its application to ferroelectricity has been done initially in the 2001 book .

The correct interpretation of solid-state phase transitions is vital in revealing the physical nature of ferroelectricity, as it is in the cases of ferromagnetism and superconductivity. But there was a long-standing hurdle to overcome in the way of their investigation. No heat is absorbed or emanated. Its application to ferroelectricity has been done initially in the 2001 book Fundamentals of Solid-State Phase Transitions, Ferromagnetism and Ferroelectricity, but this time it is done in much more complete form.

hysteresis of solid-state phase transitions. 7 Example N. : The temperature of phase. 265 . 6 A few notes on superconducting phase transitions (SPTs). 268. APPENDIX 1: 300 different kinds of solid-state phase. transitions found in literature

hysteresis of solid-state phase transitions. transitions found in literature. 270 APPENDIX 2: Shortcomings of adiabatic calorimetry and an.

Start by marking Fundamentals of Solid-State Phase Transitions, Ferromagnetism and .

Start by marking Fundamentals of Solid-State Phase Transitions, Ferromagnetism and Ferroelectricity as Want to Read: Want to Read savin. ant to Read. The author's experimental discoveries in the field of solid-state phase transitions have brought about exhaustive explanation of this phenomenon, including the puzzling nature of "-anomalies.

Format Hardback 338 pages.

Authors: Yuri Mnyukh. Tell us if something is incorrect. We aim to show you accurate product information. Manufacturers, suppliers and others provide what you see here, and we have not verified it. See our disclaimer. New Fundamentals of Solid-State Phase Transitions, Ferromagnetism and Ferroelectricity.

Theory and experiments on solid-state phase transitions, especially relating to ferromagnetism and ferroelectricity, have a very long history. They are documented and discussed in substantial books and a voluminous literature

Theory and experiments on solid-state phase transitions, especially relating to ferromagnetism and ferroelectricity, have a very long history. They are documented and discussed in substantial books and a voluminous literature.

Physics General Physics. Title:Ferromagnetic state and phase transitions. Based on the material published in Fundamentals of Solid-State Phase Transitions, Ferromagnetism and Ferroelectricity, 2nd E. DirectScientific Press (2010). Submitted on 20 Jun 2011). Abstract: Evidence is summarized attesting that the standard exchange field theory of ferromagnetism by Heisenberg has not been successful. It is replaced by the crystal field and a simple assumption that spin orientation is inexorably associated with the orientation of its carrier. Subjects: General Physics (physics.

Mnyukh then writes a very presumptuous book, covering the three seaparate areas of phase transitions, ferromagnetism, and ferroelectricity in a unified way. As to ferromagnetism, his main point is that the Weiss molecular theory/ Heisenberg exchange energy theory of ferromagnetism is wrong! He replaces the conventional theory with a theory depending on the effect of the crystal field, and h phase transitions

The author's experimental discoveries in the field of solid-state phase transitions have brought about a thorough .

The author's experimental discoveries in the field of solid-state phase transitions have brought about a thorough explanation of this phenomenon, incl. New Zealand's largest range of gifts in stock.

Fundamentals of Solid-State Phase Transitions, Ferromagnetism and Ferroelectricity.

Comments:

Hra
Dr. Mnyukh, known by his discoveries in crystal phase transitions, put forward the unified account for three areas of solid-state physics. As a part, the "lambda-anomalies" that besieged science for 70 years were explained. The book represents a significant achievement.
There are many separate books on phase transitions, ferromagnetism and ferroelectricity. Neither adequately accounted for their phenomena. Inconsistencies were profound: "critical points" were "rounded" and subjected to hysteresis; "lambda-anomalies" were observed upon first-order transitions; exchange integral had wrong sign; domain structure of antiferromagnetics and ferroelectrics had no reason to exist; "critical phenomena" concept was applied to rearrangements at interfaces ...
In contrast, Mnyukh's monograph provides unexpectedly simple, consistent and unified account for all three scientific areas, clarifying everything. How this became possible? The key is his experimental discoveries, which allowed deduce the universal molecular mechanism of phase transitions in solids.
Chapter 1 "Critical Survey" reveals failures of different theories and lays out fundamental principles. There are only two ways a phase transition can occur -by infinitesimal qualitative changes (second-order) or infinitesimal quantitative changes (first-order). The only way the latter can occur is nucleation and growth. This prohibits approximation of first-order transitions by second-order ones. The second principle, well substantiated, further simplifies the picture: only nucleation and growth materializes.
Chapter 2 "The Molecular Mechanism of Solid-State Phase Transitions" describes the author's experimental findings. The most impressive is observation of beautifully shaped single crystals growing in different orientations during phase transitions. It is a crystal growth, and not a "critical phenomenon", "displacement", "shift", "deformation" or "distortion". Investigation in depth led to other discoveries and allowed deduce the contact model of phase transitions. All aspects of this crystal growth were studied. Clarification of the notion "temperature of phase transition" and the conclusion that nucleation is impossible without microcavities of a specific size led to explanation of heterophase state, range of transition, hysteresis and "lambda-anomalies".
Two more consequential results: 1.Transitions CRYSTAL-ODC (orientation-disordered crystal) occur also by crystal growth. 2. Frequently observed lattice orientation relationship originates from epitaxial nucleation and growth which was erroneously classified as second-order transition. The whole classification of solid-state phase transitions is thus reduced to only non-oriented and epitaxial crystal growth.
Chapter 3 "Lambda-Anomalies and Other Apparent Anomalies" reveals the true nature of the phenomenon that mystified scientists for so long: the peaks of some properties vs. temperature observed during phase transitions. Anderson wrote [Science, # 4574]: "Landau...nominated [the anomalies] as the most important as yet unsolved problem in theoretical physics". Feynman regarded them "one of the challenges of theoretical physics today". But an experimentalist now explains them.
Chapter 4 "Fundamentals of Ferromagnetism and Ferroelectricity" is based on the findings of previous chapters. The phenomena and their manifestations are explained in straightforward way without Weiss/Heisenberg molecular/exchange field. The account for ferroelectricity is actually the same.
The solutions presented in this book are well substantiated, logically monolithic, answering all questions left by conventional theories; they are destined to prevail.
Uaha
Dr. Mnyukh, known by his discoveries in crystal phase transitions, put forward the unified account for three areas of solid-state physics. As a part, the "lambda-anomalies" that besieged science for 70 years were explained. The book represents a significant achievement.
There are many separate books on phase transitions, ferromagnetism and ferroelectricity. Neither adequately accounted for their phenomena. Inconsistencies were profound: "critical points" were "rounded" and subjected to hysteresis; "lambda-anomalies" were observed upon first-order transitions; exchange integral had wrong sign; domain structure of antiferromagnetics and ferroelectrics had no reason to exist; "critical phenomena" concept was applied to rearrangements at interfaces ...
In contrast, Mnyukh's monograph provides unexpectedly simple, consistent and unified account for all three scientific areas, clarifying everything. How this became possible? The key is his experimental discoveries, which allowed deduce the universal molecular mechanism of phase transitions in solids.
Chapter 1 "Critical Survey" reveals failures of different theories and lays out fundamental principles. There are only two ways a phase transition can occur -by infinitesimal qualitative changes (second-order) or infinitesimal quantitative changes (first-order). The only way the latter can occur is nucleation and growth. This prohibits approximation of first-order transitions by second-order ones. The second principle, well substantiated, further simplifies the picture: only nucleation and growth materializes.
Chapter 2 "The Molecular Mechanism of Solid-State Phase Transitions" describes the author's experimental findings. The most impressive is observation of beautifully shaped single crystals growing in different orientations during phase transitions. It is a crystal growth, and not a "critical phenomenon", "displacement", "shift", "deformation" or "distortion". Investigation in depth led to other discoveries and allowed deduce the contact model of phase transitions. All aspects of this crystal growth were studied. Clarification of the notion "temperature of phase transition" and the conclusion that nucleation is impossible without microcavities of a specific size led to explanation of heterophase state, range of transition, hysteresis and "lambda-anomalies".
Two more consequential results: 1.Transitions CRYSTAL-ODC (orientation-disordered crystal) occur also by crystal growth. 2. Frequently observed lattice orientation relationship originates from epitaxial nucleation and growth which was erroneously classified as second-order transition. The whole classification of solid-state phase transitions is thus reduced to only non-oriented and epitaxial crystal growth.
Chapter 3 "Lambda-Anomalies and Other Apparent Anomalies" reveals the true nature of the phenomenon that mystified scientists for so long: the peaks of some properties vs. temperature observed during phase transitions. Anderson wrote [Science, # 4574]: "Landau...nominated [the anomalies] as the most important as yet unsolved problem in theoretical physics". Feynman regarded them "one of the challenges of theoretical physics today". But an experimentalist now explains them.
Chapter 4 "Fundamentals of Ferromagnetism and Ferroelectricity" is based on the findings of previous chapters. The phenomena and their manifestations are explained in straightforward way without Weiss/Heisenberg molecular/exchange field. The account for ferroelectricity is actually the same.
The solutions presented in this book are well substantiated, logically monolithic, answering all questions left by conventional theories; they are destined to prevail.

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