1,533 research outputs found
Rotated canonical correlation analysis for multilingual corpora
This paper aims at proposing the joint use of Canonical Correlation Analysis and Procrustes Rotations (RCA), when we deal with a text and its translation into another language. The basic idea is representing words in the two different natural languages on a common reference space. The main characteristic of this space is to be lan-guage independent, although Procrustes Rotation is performed transforming the lexical table derived from trans-lation by minimizing its distance from the lexical table belonging to the original corpus, while the subsequent Canonical Correlation Analysis treats symmetrically the two word sets. The most interesting RCA feature is building a unique reference space for representing the correlation structure in the data, inducing the two systems of canonical factors to lie on the same space. These graphical representations enables us to read distances be-tween corresponding points in terms of different way of translating the same word in relation with the general context defined by the canonical variates. Trying to understand the distances between matched points could rep-resent an useful tool for enriching lexical resources in a translation procedure. In this paper we propose the com-parison of the most frequent content bearing words in the two languages, analyzing one year (2003) of Le Monde Diplomatique and its Italian edition
Excitation properties of photopigments and their possible dependence on the host star
Photosynthesis is a plausible pathway for the sustenance of a substantial biosphere on an exoplanet. In fact, it is also anticipated to create distinctive biosignatures detectable by next-generation telescopes. In this work, we explore the excitation features of photopigments that harvest electromagnetic radiation by constructing a simple quantum-mechanical model. Our analysis suggests that the primary Earth-based photopigments for photosynthesis may not function efficiently at wavelengths >1.1 mu m. In the context of (hypothetical) extrasolar photopigments, we calculate the potential number of conjugated pi-electrons (N-*) in the relevant molecules, which can participate in the absorption of photons. By hypothesizing that the absorption maxima of photopigments are close to the peak spectral photon flux of the host star, we utilize the model to estimate N-*. As per our formalism, N-* is modulated by the stellar temperature, and is conceivably higher (lower) for planets orbiting stars cooler (hotter) than the Sun; exoplanets around late-type M-dwarfs might require an N-* twice that of the Earth. We conclude the analysis with a brief exposition of how our model could be empirically tested by future observations
The FIT-pull Method: an experimental tool to monitor the track measurements and the B proper time.
In this note we describe a statistical tool, the \textit{FIT-pull method}, that can test the reliability of the measurements of the tracks and the vertices on real and Monte-Carlo data without knowledge of the truth information. The basic mathematical formalism is derived from the Lagrange Multipliers method and briefly described. Several tests are performed to prove its validity in different situations. %KDifferent useful examples are discussed. In particular, by using Monte-Carlo simulation, we demonstrate that the method can be applied to check if the measured tracks or vertices have biases or incorrect covariance matrices. For correct input measurements we obtain pull distributions with a normal Gaussian statistical form. In this case the B proper time value and its error, which is a function of the track and vertex measurements, are correctly calculated. However, in the case of incorrect measurements, for example due to a systematic error or to a scale factor of the covariance matrix, the pull distributions studied deviate from normal Gaussians and the B proper time measurement can be affected. In principle the method can, if necessary, be used to recover information from corrupted measurements. Its potential in this capacity is demonstrated for the particular case of the decay channel with the reconstructed Monte-Carlo data produced in 2004
Excitation Properties of Photopigments and Their Possible Dependence on the Host Star
Photosynthesis is a plausible pathway for the sustenance of a substantial
biosphere on an exoplanet. In fact, it is also anticipated to create
distinctive biosignatures detectable by next-generation telescopes. In this
work, we explore the excitation features of photopigments that harvest
electromagnetic radiation by constructing a simple quantum-mechanical model.
Our analysis suggests that the primary Earth-based photopigments for
photosynthesis may not function efficiently at wavelengths m. In
the context of (hypothetical) extrasolar photopigments, we calculate the
potential number of conjugated -electrons () in the relevant
molecules, which can participate in the absorption of photons. By hypothesizing
that the absorption maxima of photopigments are close to the peak spectral
photon flux of the host star, we utilize the model to estimate . As
per our formalism, is modulated by the stellar temperature, and is
conceivably higher (lower) for planets orbiting stars cooler (hotter) than the
sun; exoplanets around late-type M-dwarfs might require an twice that
of the Earth. We conclude the analysis with a brief exposition of how our model
could be empirically tested by future observations.Comment: 9 pages, 2 figures. Published 2021 November 11 in ApJ Letter
Affine equation of state from quintessence and k-essence fields
We explore the possibility that a scalar field with appropriate Lagrangian
can mimic a perfect fluid with an affine barotropic equation of state. The
latter can be thought of as a generic cosmological dark component evolving as
an effective cosmological constant plus a generalized dark matter. As such, it
can be used as a simple, phenomenological model for either dark energy or
unified dark matter. Furthermore, it can approximate (up to first order in the
energy density) any barotropic dark fluid with arbitrary equation of state. We
find that two kinds of Lagrangian for the scalar field can reproduce the
desired behaviour: a quintessence-like with a hyperbolic potential, or a purely
kinetic k-essence one. We discuss the behaviour of these two classes of models
from the point of view of the cosmological background, and we give some hints
on their possible clustering properties.Comment: 9 pages, 6 figures. Minor updates, accepted by CQ
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