70,972 research outputs found
Parity Effect in a mesoscopic superconducting ring
We study a mesoscopic superconducting ring threaded by a magnetic flux when
the single particle level spacing is not negligible. It is shown that, for a
superconducting ring with even parity, the behavior of persistent current is
equivalent to what is expected in a bulk superconducting ring. On the other
hand, we find that a ring with odd parity shows anomalous behavior such as
fluxoid quantization at half-integral multiples of the flux quantum and
paramagnetic response at low temperature. We also discuss how the parity effect
in the persistent current disappears as the temperature is raised or as the
size of the ring increases.Comment: 8 pages, 2 figures, to appear in Europhys. Let
Phase Diagram of Adsorbate-Induced Row-Type-Alignments
The phase diagram of adsorbate-induced row-type-alignments, such as
missing-row reconstructions induced by adsorbate-atoms on the FCC(110) surface,
is calculated by the Blume-Emmery-Griffiths (BEG) model. In the model, we
introduce adatom-adatom and dipole-dipole interactions between nearest-neighbor
(NN) and next-nearest-neighbor (NNN) rows. The calculation of the temperature
versus adatom chemical potential phase diagram is performed using mean-field
approximation. It is indicated that when NN and NNN interactions are
competitive, there appear either dipole or coverage modulated (incommensurate)
phases at high temperatures for wide regime of the interactions.Comment: 5 pages, 6 figures, ICSOS'99. to appear in Surf. Rev. and Let
Bounds on the lightest Higgs boson mass with three and four fermion generations
We present lower bounds on the Higgs boson mass in the Standard Model with
three and four fermion generations SM(3,4), as well as upper bounds on the
lightest Higgs boson mass in the minimal supersymmetric extension of the SM
with three and four generations MSSM(3,4). Our analysis utilizes the SM(3,4)
renormalization-group-improved one-loop effective potential of the Higgs boson
to find the upper bounds on the Higgs mass in the MSSM(3,4) while the lower
bounds in the SM(3,4) are derived from considerations of vacuum stability. All
the bounds increase as the degenerate fourth generation mass increases,
providing more room in theory space that respects the increasing experimental
lower limit of the Higgs mass.Comment: 24 pages, 10 figures, Some additional discussion added. Final version
to be published in International Journal of Modern Physics
Neutrino Oscillations and Lepton Flavor Mixing
In view of the recent announcement on non-zero neutrino mass from
Super-Kamiokande experiment, it would be very timely to investigate all the
possible scenarios on masses and mixings of light neutrinos. Recently suggested
mass matrix texture for the quark CKM mixing, which can be originated from the
family permutation symmetry and its suitable breakings, is assumed for the
neutrino mass matrix and determined by the four combinations of solar,
atmospheric and LSND neutrino data and cosmological hot dark matter bound as
input constraints. The charged-lepton mass matrix is assumed to be diagonal so
that the neutrino mixing matrix can be identified directly as the lepton flavor
mixing matrix and no CP invariance violation originates from the leptonic
sector. The results favor hierarchical patterns for the neutrino masses, which
follow from the case when either solar-atmospheric data or solar-HDM
constraints are used.Comment: Latex, 9 page
Synthetic vision and emotion calculation in intelligent virtual human modeling
The virtual human technique already can provide vivid and believable human behaviour in more and more scenarios. Virtual humans are expected to replace real humans in hazardous situations to undertake tests and feed back valuable information. This paper will introduce a virtual human with a novel collision-based synthetic vision, short-term memory model and a capability to implement the emotion calculation and decision making. The virtual character based on this model can âseeâ what is in his field of view (FOV) and remember those objects. After that, a group of affective computing equations have been introduced. These equations have been implemented into a proposed emotion calculation process to enlighten emotion for virtual intelligent huma
- âŠ