39,186 research outputs found
Glass-ionomer Adhesives in Orthodontics: Clinical Implications and Future Research Directions
During the past ten years significant advances have been made in the development of glass-ionomer bonding adhesives. The beneficial effects of fluoride are well documented and an agent which reduces or prevents a white spot lesion that commonly occurs clinically, is desirable. There has been a notable lack of randomized clinical trials to determine the prevalence of white spot lesions after orthodontic treatment although it is often reported in the literature. White spot lesions pose health and esthetic problems and their proper clinical management has yet to be resolved. The objective of this paper Is to review the literature in this area and suggest a rationale for a clinical trial to assess the efficiency of glass-ionomer adhesives in facing the problem of decalcification and study the bond strength of these materials
The collision of two-kinks defects
We have investigated the head-on collision of a two-kink and a two-antikink
pair that arises as a generalization of the model. We have evolved
numerically the Klein-Gordon equation with a new spectral algorithm whose
accuracy and convergence were attested by the numerical tests. As a general
result, the two-kink pair is annihilated radiating away most of the scalar
field. It is possible the production of oscillons-like configurations after the
collision that bounce and coalesce to form a small amplitude oscillon at the
origin. The new feature is the formation of a sequence of quasi-stationary
structures that we have identified as lump-like solutions of non-topological
nature. The amount of time these structures survives depends on the fine-tuning
of the impact velocity.Comment: 14 pages, 9 figure
Charge confinement and Klein tunneling from doping graphene
In the present work, we investigate how structural defects in graphene can
change its transport properties. In particular, we show that breaking of the
sublattice symmetry in a graphene monolayer overcomes the Klein effect, leading
to confined states of massless Dirac fermions. Experimentally, this corresponds
to chemical bonding of foreign atoms to carbon atoms, which attach themselves
to preferential positions on one of the two sublattices. In addition, we
consider the scattering off a tensor barrier, which describes the rotation of
the honeycomb cells of a given region around an axis perpendicular to the
graphene layer. We demonstrate that in this case the intervalley mixing between
the Dirac points emerges, and that Klein tunneling occurs.Comment: 11 pages, 5 figure
Aging and fluctuation-dissipation ratio in a nonequilibrium -state lattice model
A generalized version of the nonequilibrium linear Glauber model with
states in dimensions is introduced and analyzed. The model is fully
symmetric, its dynamics being invariant under all permutations of the
states. Exact expressions for the two-time autocorrelation and response
functions on a -dimensional lattice are obtained. In the stationary regime,
the fluctuation-dissipation theorem holds, while in the transient the aging is
observed with the fluctuation-dissipation ratio leading to the value predicted
for the linear Glauber model
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