Overview
- Authors:
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Ganesan Venkataraman
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ANURAG, Defence Research & Development Organisation, RCI PO, Hyderabad, India
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Debendranath Sahoo
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Indira Gandhi Centre for Atomic Research, Kalpakkam, India
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Venkataraman Balakrishnan
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Department of Physics, Indian Institute of Technology, Madras, India
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Table of contents (9 chapters)
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- Ganesan Venkataraman, Debendranath Sahoo, Venkataraman Balakrishnan
Pages 1-4
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- Ganesan Venkataraman, Debendranath Sahoo, Venkataraman Balakrishnan
Pages 5-21
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- Ganesan Venkataraman, Debendranath Sahoo, Venkataraman Balakrishnan
Pages 22-33
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- Ganesan Venkataraman, Debendranath Sahoo, Venkataraman Balakrishnan
Pages 34-47
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- Ganesan Venkataraman, Debendranath Sahoo, Venkataraman Balakrishnan
Pages 48-72
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- Ganesan Venkataraman, Debendranath Sahoo, Venkataraman Balakrishnan
Pages 73-105
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- Ganesan Venkataraman, Debendranath Sahoo, Venkataraman Balakrishnan
Pages 106-116
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- Ganesan Venkataraman, Debendranath Sahoo, Venkataraman Balakrishnan
Pages 117-124
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- Ganesan Venkataraman, Debendranath Sahoo, Venkataraman Balakrishnan
Pages 125-132
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Back Matter
Pages 133-207
About this book
Condensed matter exhibits a rich variety of phases. Of these, the crystalline state has, until recently, received most attention. This is not surprising, given the geometric regularity of crystals. At the other extreme one has amorphous materials. In between there are the various types of liquid crystals, the recently discovered quasicrystals, and so on. While the absence of the high degree of regularity that characterizes the crystalline phase is certainly a problem, these noncrystalline states have nevertheless been receiving some attention over the years. However, it is only during the last few years that something like a uni fied view of all these phases has begun to emerge, through an application of various sophisticated concepts. Geometry and symmetry (and unusual realiza tions of the latter) provide a unifying thread in this new and emerging perspec tive. This book is an attempt to capture the flavour of some of these recent de velopments. The approach is substantially descriptive, being intended to be accessible not only to experimental physicists, but also to chemists, materials scientists, metallurgists and ceramicists, whose work borders on physics. The prerequisites for a study of this book are a familiarity with basic solid-state physics and, in places, the elements of group theory and statistical mechanics. A few special topics are included at the end to aid those who wish to pur sure further the subject matter treated here.