Phase Transition in Strongly Correlated Systems
Bilayer Quantum Hall Effect, Inhomogeneous Superconductivity and Boson Hubbard Model
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Landau Fermi Liquid Theory is the basis of our current understanding of the physical properties of electronic systems. It relies on a deep and far-reaching principle of adiabatic continuity. The success of the theory depends crucially on density and dimensionality of the systems. Recent development in semiconductors and ultra-cold atom physics let physicists realize that there are more interesting theories than dull Landau Fermi liquid theory, most of which lie at the heart of strongly correlated systems, either bosons or fermions. This book is an effort to explain strongly correlated phenomen...
Landau Fermi Liquid Theory is the basis of our
current understanding of the physical properties of
electronic systems. It relies on a deep and far-
reaching principle of adiabatic continuity. The
success of the theory depends crucially on density
and dimensionality of the systems. Recent
development in semiconductors and ultra-cold atom
physics let physicists realize that there are more
interesting theories than dull Landau Fermi liquid
theory, most of which lie at the heart of strongly
correlated systems, either bosons or fermions. This
book is an effort to explain strongly correlated
phenomena in bilayer quantum Hall systems,
unconventional superconductivity and the boson
Hubbard model. This book is intended for researchers
in condensed matter field, but is also useful to
someone who wants to know the recent development of
the exciting field.
current understanding of the physical properties of
electronic systems. It relies on a deep and far-
reaching principle of adiabatic continuity. The
success of the theory depends crucially on density
and dimensionality of the systems. Recent
development in semiconductors and ultra-cold atom
physics let physicists realize that there are more
interesting theories than dull Landau Fermi liquid
theory, most of which lie at the heart of strongly
correlated systems, either bosons or fermions. This
book is an effort to explain strongly correlated
phenomena in bilayer quantum Hall systems,
unconventional superconductivity and the boson
Hubbard model. This book is intended for researchers
in condensed matter field, but is also useful to
someone who wants to know the recent development of
the exciting field.
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