38,212 research outputs found
Holographic Dark Energy Characterized by the Total Comoving Horizon and Insights to Cosmological Constant and Coincidence Problem
The observed acceleration of the present universe is shown to be well
explained by the holographic dark energy characterized by the total comoving
horizon of the universe (HDE). It is of interest to notice that the very
large primordial part of the comoving horizon generated by the inflation of
early universe makes the HDE behave like a cosmological constant. As a
consequence, both the fine-tuning problem and the coincidence problem can
reasonably be understood with the inflationary universe and holographical
principle. We present a systematic analysis and obtain a consistent
cosmological constraint on the HDE model based on the recent cosmological
observations. It is found that the HDE model gives the best-fit result
() and the minimal
which is compatible with for the CDM model.Comment: 17 pages, 4 figures, two eqs. (26)(27) added for the consistent
approximate solution of dark energy in early universe, references added,
published version in PR
Active role of elongation factor G in maintaining the mRNA reading frame during translation.
During translation, the ribosome moves along the mRNA one codon at a time with the help of elongation factor G (EF-G). Spontaneous changes in the translational reading frame are extremely rare, yet how the precise triplet-wise step is maintained is not clear. Here, we show that the ribosome is prone to spontaneous frameshifting on mRNA slippery sequences, whereas EF-G restricts frameshifting. EF-G helps to maintain the mRNA reading frame by guiding the A-site transfer RNA during translocation due to specific interactions with the tip of EF-G domain 4. Furthermore, EF-G accelerates ribosome rearrangements that restore the ribosome's control over the codon-anticodon interaction at the end of the movement. Our data explain how the mRNA reading frame is maintained during translation
Strong laws of large numbers for sub-linear expectations
We investigate three kinds of strong laws of large numbers for capacities
with a new notion of independently and identically distributed (IID) random
variables for sub-linear expectations initiated by Peng. It turns out that
these theorems are natural and fairly neat extensions of the classical
Kolmogorov's strong law of large numbers to the case where probability measures
are no longer additive. An important feature of these strong laws of large
numbers is to provide a frequentist perspective on capacities.Comment: 10 page
Charge oscillation-induced light transmission through subwavelength slits and holes
We present a concrete picture of spoof surface plasmons (SSPs) combined with
cavity resonance to clarify the basic mechanism underlying extraordinary light
transmission through metal films with subwavelength slits or holes. This
picture may indicate a general mechanism of metallic nanostructure optics: When
light is incident on a non-planar conducting surface, the free electrons cannot
move homogeneously in response to the incident electric field, i.e., their
movement can be impeded at the rough parts, forming inhomogeneous charge
distributions. The oscillating charges/dipoles then emit photons (similar to
Thomson scattering of x rays by oscillating electrons), and the interference
between the photons may give rise to anomalous transmission, reflection or
scattering.Comment: 4 pages, 4 figures, are "surface plasmons" true for conducting
structures? Answere is here. Also see the new arXiv:0903.3565v1, the
expansion of this pape
Magnitude and Sign Correlations in Heartbeat Fluctuations
We propose an approach for analyzing signals with long-range correlations by
decomposing the signal increment series into magnitude and sign series and
analyzing their scaling properties. We show that signals with identical
long-range correlations can exhibit different time organization for the
magnitude and sign. We find that the magnitude series relates to the nonlinear
properties of the original time series, while the sign series relates to the
linear properties. We apply our approach to the heartbeat interval series and
find that the magnitude series is long-range correlated, while the sign series
is anticorrelated and that both magnitude and sign series may have clinical
applications.Comment: 4 pages,late
Band alignment at metal/ferroelectric interfaces: insights and artifacts from first principles
Based on recent advances in first-principles theory, we develop a general
model of the band offset at metal/ferroelectric interfaces. We show that,
depending on the polarization of the film, a pathological regime might occur
where the metallic carriers populate the energy bands of the insulator, making
it metallic. As the most common approximations of density functional theory are
affected by a systematic underestimation of the fundamental band gap of
insulators, this scenario is likely to be an artifact of the simulation. We
provide a number of rigorous criteria, together with extensive practical
examples, to systematically identify this problematic situation in the
calculated electronic and structural properties of ferroelectric systems. We
discuss our findings in the context of earlier literature studies, where the
issues described in this work have often been overlooked. We also discuss
formal analogies to the physics of polarity compensation at LaAlO3/SrTiO3
interfaces, and suggest promising avenues for future research.Comment: 29 pages, 23 figure
- …