10,051 research outputs found
Dreaming klimt
The purpose of this project was to make a dress that was inspired by the shiny and brilliant gold color of Klimt\u27s KISS painting, especially by the man\u27s garment in the painting. This dress can be for elegant formal wear or for eveningwear
Gravitational waves from BH-NS binaries: Effective Fisher matrices and parameter estimation using higher harmonics
Inspiralling black hole-neutron star (BH-NS) binaries emit a complicated
gravitational wave signature, produced by multiple harmonics sourced by their
strong local gravitational field and further modulated by the orbital plane's
precession. Some features of this complex signal are easily accessible to
ground-based interferometers (e.g., the rate of change of frequency); others
less so (e.g., the polarization content); and others unavailable (e.g.,
features of the signal out of band). For this reason, an ambiguity function (a
diagnostic of dissimilarity) between two such signals varies on many parameter
scales and ranges. In this paper, we present a method for computing an
approximate, effective Fisher matrix from variations in the ambiguity function
on physically pertinent scales which depend on the relevant signal to noise
ratio. As a concrete example, we explore how higher harmonics improve parameter
measurement accuracy. As previous studies suggest, for our fiducial BH-NS
binaries and for plausible signal amplitudes, we see that higher harmonics at
best marginally improve our ability to measure parameters. For non-precessing
binaries, these Fisher matrices separate into intrinsic (mass, spin) and
extrinsic (geometrical) parameters; higher harmonics principally improve our
knowledge about the line of sight. For the precessing binaries, the extra
information provided by higher harmonics is distributed across several
parameters. We provide concrete estimates for measurement accuracy, using
coordinates adapted to the precession cone in the detector's sensitive band.Comment: 19 pages, 11 figure
Effects of Forestland Ownership Conversion on Greenhouse Gas Emissions: The Case of South Korea
This research analyzed the effects of forestland conversion from private to public ownership on greenhouse gas emissions by quantifying the relationship between forestland ownership conversion and deforestation, and then examining the effects of the change in deforestation on greenhouse gas emissions in South Korea. Ex ante simulations forecast greenhouse gas emissions resulting from deforestation rates under the current level of national forestland and three scenarios of increased percentages of national forestland. The findings suggest that increasing the percentage of national forestland would mitigate the increase in the deforestation rate, which in turn would moderate the increase in greenhouse gas emissions.greenhouse gas emissions, Forestland Ownership, Environmental Economics and Policy, Q15, Q23, Q24, Q54,
Moving sum procedure for change point detection under piecewise linearity
We propose a computationally and statistically efficient procedure for
segmenting univariate data under piecewise linearity. The proposed moving sum
(MOSUM) methodology detects multiple change points where the underlying signal
undergoes discontinuous jumps and/or slope changes. Theoretically, it controls
the family-wise error rate at a given significance level asymptotically and
achieves consistency in multiple change point detection, as well as matching
the minimax optimal rate of estimation when the signal is piecewise linear and
continuous, all under weak assumptions permitting serial dependence and
heavy-tailedness. Computationally, the complexity of the MOSUM procedure is
which, combined with its good performance on simulated datasets, making
it highly attractive in comparison with the existing methods. We further
demonstrate its good performance on a real data example on rolling
element-bearing prognostics
Moving sum procedure for change point detection under piecewise linearity
We propose a computationally and statistically efficient procedure for
segmenting univariate data under piecewise linearity. The proposed moving sum
(MOSUM) methodology detects multiple change points where the underlying signal
undergoes discontinuous jumps and/or slope changes. Theoretically, it controls
the family-wise error rate at a given significance level asymptotically and
achieves consistency in multiple change point detection, as well as matching
the minimax optimal rate of estimation when the signal is piecewise linear and
continuous, all under weak assumptions permitting serial dependence and
heavy-tailedness. Computationally, the complexity of the MOSUM procedure is
which, combined with its good performance on simulated datasets, making
it highly attractive in comparison with the existing methods. We further
demonstrate its good performance on a real data example on rolling
element-bearing prognostics
Algae–bacteria interactions: Evolution, ecology and emerging applications
AbstractAlgae and bacteria have coexisted ever since the early stages of evolution. This coevolution has revolutionized life on earth in many aspects. Algae and bacteria together influence ecosystems as varied as deep seas to lichens and represent all conceivable modes of interactions — from mutualism to parasitism. Several studies have shown that algae and bacteria synergistically affect each other's physiology and metabolism, a classic case being algae–roseobacter interaction. These interactions are ubiquitous and define the primary productivity in most ecosystems. In recent years, algae have received much attention for industrial exploitation but their interaction with bacteria is often considered a contamination during commercialization. A few recent studies have shown that bacteria not only enhance algal growth but also help in flocculation, both essential processes in algal biotechnology. Hence, there is a need to understand these interactions from an evolutionary and ecological standpoint, and integrate this understanding for industrial use. Here we reflect on the diversity of such relationships and their associated mechanisms, as well as the habitats that they mutually influence. This review also outlines the role of these interactions in key evolutionary events such as endosymbiosis, besides their ecological role in biogeochemical cycles. Finally, we focus on extending such studies on algal–bacterial interactions to various environmental and bio-technological applications
Cored Dark Matter halos in the Cosmic Neutrino Background
We study the impact of the interaction between DM and the cosmic neutrino
background on the evolution of galactic dark matter halos. The energy transfer
from the neutrinos to the dark matter can heat the center of the galaxy and
make it cored. This effect is efficient for the small galaxies such as the
satellite galaxies of the Milky Way and we can put conservative constraint on
the non-relativistic elastic scattering cross section as
for 0.1 keV dark matter and 0.1
eV neutrino.Comment: 7 pages, 5 figure
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