46,153 research outputs found
Exact solution at integrable coupling of a model for the Josephson effect between small metallic grains
A model is introduced for two reduced BCS systems which are coupled through
the transfer of Cooper pairs between the systems. The model may thus be used in
the analysis of the Josephson effect arising from pair tunneling between two
strongly coupled small metallic grains. At a particular coupling strength the
model is integrable and explicit results are derived for the energy spectrum,
conserved operators, integrals of motion, and wave function scalar products. It
is also shown that form factors can be obtained for the calculation of
correlation functions. Further, a connection with perturbed conformal field
theory is made.Comment: 12 pages, latex, no figure
The structural, mechanical, electronic, optical and thermodynamic properties of t-XAs (X Si, Ge and Sn) by first-principles calculations
The structural, mechanical, electronic, optical and thermodynamic properties
of the t-XAs (X Si, Ge and Sn) with
tetragonal structure have been investigated by first principles calculations.
Our calculated results show that these compounds are mechanically and
dynamically stable. By the study of elastic anisotropy, it is found that the
anisotropic of the t-SnAs is stronger than that
of t-SiAs and
t-GeAs. The band structures and density of states
show that the t-XAs (Si, Ge and Sn) are
semiconductors with narrow band gaps. Based on the analyses of electron density
difference, in t-XAs As atoms get electrons, X
atoms lose electrons. The calculated static dielectric constants,
, are 15.5, 20.0 and 15.1 eV for
t-XAs (X Si, Ge and Sn), respectively. The
Dulong-Petit limit of t-XAs is about 10 J
molK. The thermodynamic stability successively
decreases from t-SiAs to
t-GeAs to t-SnAs.Comment: 14 pages, 10 figures, 6 table
Graded reflection equation algebras and integrable Kondo impurities in the one-dimensional t-J model
Integrable Kondo impurities in two cases of the one-dimensional model
are studied by means of the boundary -graded quantum inverse
scattering method. The boundary matrices depending on the local magnetic
moments of the impurities are presented as nontrivial realizations of the
reflection equation algebras in an impurity Hilbert space. Furthermore, these
models are solved by using the algebraic Bethe ansatz method and the Bethe
ansatz equations are obtained.Comment: 14 pages, RevTe
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