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A broad introduction to high Tc superconductors, their parent
compounds and related novel materials, covering both fundamental
questions of modern solid state physics (such as correlation
effects, fluctuations, unconventional symmetry of superconducting
order parameter) and applied problems related to short coherence
length, grain boundaries and thin films. The information that can
be derived from electron spectroscopy and optical measurements is
illustrated and explained in detail. Descriptions widely employ the
clear, relatively simple, phenomenological Ginzburg-Landau model of
complex phenomena, such as vortex physics, vortex charge
determination, plasmons in superconductors, Cooper pair mass, and
wetting of surfaces. The first comprehensive reviews of several
novel classes of materials are presented, including borocarbides
and chain cuprates.
A broad introduction to high Tc superconductors, their parent
compounds and related novel materials, covering both fundamental
questions of modern solid state physics (such as correlation
effects, fluctuations, unconventional symmetry of superconducting
order parameter) and applied problems related to short coherence
length, grain boundaries and thin films. The information that can
be derived from electron spectroscopy and optical measurements is
illustrated and explained in detail. Descriptions widely employ the
clear, relatively simple, phenomenological Ginzburg-Landau model of
complex phenomena, such as vortex physics, vortex charge
determination, plasmons in superconductors, Cooper pair mass, and
wetting of surfaces. The first comprehensive reviews of several
novel classes of materials are presented, including borocarbides
and chain cuprates.
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