73,756 research outputs found
Superconductivity mediated by the antiferromagnetic spin-wave in chalcogenide iron-base superconductors
The ground state of KFeSe and other iron-based
selenide superconductors are doped antiferromagnetic semiconductors. There are
well defined iron local moments whose energies are separated from those of
conduction electrons by a large band gap in these materials. We propose that
the low energy physics of this system is governed by a model Hamiltonian of
interacting electrons with on-site ferromagnetic exchange interactions and
inter-site superexchange interactions. We have derived the effective pairing
potential of electrons under the linear spin-wave approximation and shown that
the superconductivity can be driven by mediating coherent spin wave excitations
in these materials. Our work provides a natural account for the coexistence of
superconducting and antiferromagnetic long range orders observed by neutron
scattering and other experiments.Comment: 4 pages, 3 figure
Almost Special Holonomy in Type IIA&M Theory
We consider spaces M_7 and M_8 of G_2 holonomy and Spin(7) holonomy in seven
and eight dimensions, with a U(1) isometry. For metrics where the length of the
associated circle is everywhere finite and non-zero, one can perform a
Kaluza-Klein reduction of supersymmetric M-theory solutions (Minkowksi)_4\times
M_7 or (Minkowksi)_3\times M_8, to give supersymmetric solutions
(Minkowksi)_4\times Y_6 or (Minkowksi)_3\times Y_7 in type IIA string theory
with a non-singular dilaton. We study the associated six-dimensional and
seven-dimensional spaces Y_6 and Y_7 perturbatively in the regime where the
string coupling is weak but still non-zero, for which the metrics remain
Ricci-flat but that they no longer have special holonomy, at the linearised
level. In fact they have ``almost special holonomy,'' which for the case of Y_6
means almost Kahler, together with a further condition. For Y_7 we are led to
introduce the notion of an ``almost G_2 manifold,'' for which the associative
3-form is closed but not co-closed. We obtain explicit classes of non-singular
metrics of almost special holonomy, associated with the near Gromov-Hausdorff
limits of families of complete non-singular G_2 and Spin(7) metrics.Comment: Latex, 26 page
Parallel processing architecture for computing inverse differential kinematic equations of the PUMA arm
In advanced robot control problems, on-line computation of inverse Jacobian solution is frequently required. Parallel processing architecture is an effective way to reduce computation time. A parallel processing architecture is developed for the inverse Jacobian (inverse differential kinematic equation) of the PUMA arm. The proposed pipeline/parallel algorithm can be inplemented on an IC chip using systolic linear arrays. This implementation requires 27 processing cells and 25 time units. Computation time is thus significantly reduced
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