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Frustrated materials and ferroic glasses

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Frustrated materials and ferroic glasses/ edited by Turab Lookman, Xiaobing Ren.
其他作者:	Lookman, Turab.
出版者:	Cham :Springer International Publishing : : 2018.,
面頁冊數:	xiii, 276 p. :ill., digital ; : 24 cm.;
Contained By:	Springer eBooks
標題:	Materials science. -
電子資源:	https://doi.org/10.1007/978-3-319-96914-5
ISBN:	9783319969145

Frustrated materials and ferroic glasses
Frustrated materials and ferroic glasses[electronic resource] /edited by Turab Lookman, Xiaobing Ren. - Cham :Springer International Publishing :2018. - xiii, 276 p. :ill., digital ;24 cm. - Springer series in materials science,v.2750933-033X ;. - Springer series in materials science ;106..

List of Contributors -- Preface -- 1 What can spin glass theory and analogies tell us about ferroic glasses? -- 2 Spin glasses: Experimental signatures and salient outcomes -- 3 Frustration(s) and the Ice Rule: From Natural Materials to the Deliberate Design of Exotic Behaviors -- 4 Glassy phenomena and precursors in the lattice dynamics -- 5 Relaxor Ferroelectrics -- 6 Probing glassiness in Heuslers via density functional theory calculations -- 7 Strain glasses -- 8 Discrete pseudo spin and continuum models for strain glass -- 9 Mesoscopic modelling of strain glass -- 10 Phase field simulations of ferroic glasses.

This book provides a comprehensive introduction to ferroics and frustrated materials. Ferroics comprise a range of materials classes with functionalities such as magnetism, polarization, and orbital degrees of freedom and strain. Frustration, due to geometrical constraints, and disorder, due to chemical and/or structural inhomogeneities, can lead to glassy behavior, which has either been directly observed or inferred in a range of materials classes from model systems such as artificial spin ice, shape memory alloys, and ferroelectrics to electronically functional materials such as manganites. Interesting and unusual properties are found to be associated with these glasses and have potential for novel applications. Just as in prototypical spin glass and structural glasses, the elements of frustration and disorder lead to non-ergodocity, history dependence, frequency dependent relaxation behavior, and the presence of inhomogeneous nano clusters or domains. In addition, there are new states of matter, such as spin ice; however, it is still an open question as to whether these systems belong to the same family or universality class. The purpose of this work is to collect in a single volume the range of materials systems with differing functionalities that show many of the common characteristics of geometrical frustration, where interacting degrees of freedom do not fit in a lattice or medium, and glassy behavior is accompanied by additional presence of disorder. The chapters are written by experts in their fields and span experiment and theory, as well as simulations. Frustrated Materials and Ferroic Glasses will be of interest to a wide range of readers in condensed matter physics and materials science. Brings together experts in glasses, geometrical frustration, and functional materials Covers theory, experiment, and simulations of ferroics Features an easy-to-read introduction in each chapter to make specialized topics accessible to a broad readership in condensed matter physics and materials science.

ISBN: 9783319969145

Standard No.: 10.1007/978-3-319-96914-5doiSubjects--Topical Terms:

557839
Materials science.

LC Class. No.: TA403.6 / .F787 2018

Dewey Class. No.: 620.11

Frustrated materials and ferroic glasses
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505 0 $a List of Contributors -- Preface -- 1 What can spin glass theory and analogies tell us about ferroic glasses? -- 2 Spin glasses: Experimental signatures and salient outcomes -- 3 Frustration(s) and the Ice Rule: From Natural Materials to the Deliberate Design of Exotic Behaviors -- 4 Glassy phenomena and precursors in the lattice dynamics -- 5 Relaxor Ferroelectrics -- 6 Probing glassiness in Heuslers via density functional theory calculations -- 7 Strain glasses -- 8 Discrete pseudo spin and continuum models for strain glass -- 9 Mesoscopic modelling of strain glass -- 10 Phase field simulations of ferroic glasses.
520 $a This book provides a comprehensive introduction to ferroics and frustrated materials. Ferroics comprise a range of materials classes with functionalities such as magnetism, polarization, and orbital degrees of freedom and strain. Frustration, due to geometrical constraints, and disorder, due to chemical and/or structural inhomogeneities, can lead to glassy behavior, which has either been directly observed or inferred in a range of materials classes from model systems such as artificial spin ice, shape memory alloys, and ferroelectrics to electronically functional materials such as manganites. Interesting and unusual properties are found to be associated with these glasses and have potential for novel applications. Just as in prototypical spin glass and structural glasses, the elements of frustration and disorder lead to non-ergodocity, history dependence, frequency dependent relaxation behavior, and the presence of inhomogeneous nano clusters or domains. In addition, there are new states of matter, such as spin ice; however, it is still an open question as to whether these systems belong to the same family or universality class. The purpose of this work is to collect in a single volume the range of materials systems with differing functionalities that show many of the common characteristics of geometrical frustration, where interacting degrees of freedom do not fit in a lattice or medium, and glassy behavior is accompanied by additional presence of disorder. The chapters are written by experts in their fields and span experiment and theory, as well as simulations. Frustrated Materials and Ferroic Glasses will be of interest to a wide range of readers in condensed matter physics and materials science. Brings together experts in glasses, geometrical frustration, and functional materials Covers theory, experiment, and simulations of ferroics Features an easy-to-read introduction in each chapter to make specialized topics accessible to a broad readership in condensed matter physics and materials science.
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