Ebook: Metal-Insulator Transitions
Author: Nevill Francis Mott
- Genre: Physics // Solid State Physics
- Year: 1990
- Publisher: Taylor & Francis
- City: New York
- Edition: 2
- Language: English
- pdf
The first edition of this book, published in 1974, described metal-insulator
transitions due to disorder (the Anderson transition), the Mott-Hubbard
transition resulting from intra-atomic interaction (the Hubbard U), as well as
certain other types such as band-crossiLg transitions and those of Verwey as in
Fe3O4. Since then, our understanding of the Anderson transition has been
completely transformed by the scaling theory of Abrahams et al. (1979),
experiments that supported its conclusions and by the theory of interactions
between electrons initiated by Altshuler and Aronov (1979) for the metallic state
and by Efros and Shklovskii (1975) for hopping conduction. The part of the book
that deals with these transitions, both in impurity bands and other systems, has
been completely rewritten. Our description of the Mott-Hubbard transition has
changed less, except that the transition in doped silicon and germanium is now
believed to be of Anderson type, even though the formula for the critical
concentration derived by the present author in 1949 for a Mott transition is in
satisfactory agreement with experiment for almost aU doped semiconductors.
Our motive for a new edition dealing with the transition in crystalline conductors,
particularly the transitional-metal oxides, is primarily the renewed interest in
these materials generated by the discovery of the high-temperature
superconductors. Some of these, it is widely believed, are antiferromagnetic
insulators doped sufficiently heavily to become metallic. We include a chapter
putting this point of view, in the context of what we know in general about metal-insulator
transitions. We also describe our new understanding of the phenomenon in liquids.
transitions due to disorder (the Anderson transition), the Mott-Hubbard
transition resulting from intra-atomic interaction (the Hubbard U), as well as
certain other types such as band-crossiLg transitions and those of Verwey as in
Fe3O4. Since then, our understanding of the Anderson transition has been
completely transformed by the scaling theory of Abrahams et al. (1979),
experiments that supported its conclusions and by the theory of interactions
between electrons initiated by Altshuler and Aronov (1979) for the metallic state
and by Efros and Shklovskii (1975) for hopping conduction. The part of the book
that deals with these transitions, both in impurity bands and other systems, has
been completely rewritten. Our description of the Mott-Hubbard transition has
changed less, except that the transition in doped silicon and germanium is now
believed to be of Anderson type, even though the formula for the critical
concentration derived by the present author in 1949 for a Mott transition is in
satisfactory agreement with experiment for almost aU doped semiconductors.
Our motive for a new edition dealing with the transition in crystalline conductors,
particularly the transitional-metal oxides, is primarily the renewed interest in
these materials generated by the discovery of the high-temperature
superconductors. Some of these, it is widely believed, are antiferromagnetic
insulators doped sufficiently heavily to become metallic. We include a chapter
putting this point of view, in the context of what we know in general about metal-insulator
transitions. We also describe our new understanding of the phenomenon in liquids.
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