3,158 research outputs found
A note on polarized light from magnetars
In a recent paper it is claimed that vacuum birefringence has been experimentally observed for the first time by measuring the degree of polarization of visible light from a magnetar candidate, a neutron star with a magnetic field presumably as large as 10^13 G. The role of such a strong magnetic field is twofold. First, the surface of the star emits, at each point, polarized light with linear polarization correlated with the orientation of the magnetic field. Depending on the relative orientation of the magnetic axis of the star with the direction to the distant observer, a certain degree of polarization should be visible. Second, the strong magnetic field in the vacuum surrounding the star could enhance the effective degree of polarization observed: vacuum birefringence. We compare experimental data and theoretical expectations concluding that the conditions to support a claim of strong evidence of vacuum birefringence effects are not met
The synthesis and study of the biological and colloidal properties of bolaamphiphiles
Over the past decade, antibiotic resistant bacteria have caused infections in patients throughout the world.[1] The rise in antibiotic resistance is primarily due to the misuse and overuse of antibiotics. [1] To counter the increase in antibiotic resistance, infection control mechanisms have been aggressively researched in recent years. In particular, drug delivery has become a focal point to fight antibiotic resistant infections.[2] Amphiphiles have a wide range of applications in the clinical setting, including the ability to inhibit bacterial transference because of their bactericidal activity. [3] Bolaamphiphiles are a subclass of amphiphiles that possess two or more hydrophilic heads on either side of hydrophobic linker (typically a hydrocarbon chain). Altering the length of the hydrophobic linker or structure of hydrophilic heads can change their biological and colloidal properties. This study includes the synthesis as well as the colloidal and biological study of a novel hexacationic bolaamphiphile with three cationic groups on each end of an intervening twelve carbon tail. The critical micelle concentration (CMC) and minimum inhibitory concentration (MIC) have been determined. In addition preliminary studies on interactions between the hexacationic bolaamphiphile and a hexaanionic salt will be presented
A new approach to analysing HST spatial scans: the transmission spectrum of HD 209458 b
The Wide Field Camera 3 (WFC3) on Hubble Space Telescope (HST) is currently
one of the most widely used instruments for observing exoplanetary atmospheres,
especially with the use of the spatial scanning technique. An increasing number
of exoplanets have been studied using this technique as it enables the
observation of bright targets without saturating the sensitive detectors. In
this work we present a new pipeline for analyzing the data obtained with the
spatial scanning technique, starting from the raw data provided by the
instrument. In addition to commonly used correction techniques, we take into
account the geometric distortions of the instrument, whose impact may become
important when combined to the scanning process. Our approach can improve the
photometric precision for existing data and also push further the limits of the
spatial scanning technique, as it allows the analysis of even longer spatial
scans. As an application of our method and pipeline, we present the results
from a reanalysis of the spatially scanned transit spectrum of HD 209458 b. We
calculate the transit depth per wavelength channel with an average relative
uncertainty of 40 ppm. We interpret the final spectrum with T-Rex, our fully
Bayesian spectral retrieval code, which confirms the presence of water vapor
and clouds in the atmosphere of HD 209458 b. The narrow wavelength range limits
our ability to disentangle the degeneracies between the fitted atmospheric
parameters. Additional data over a broader spectral range are needed to address
this issue.Comment: 13 pages, 15 figures, 7 tables, Accepted for publication in Ap
A Principal Component Analysis-based method to analyse high-resolution spectroscopic data
High-Resolution Spectroscopy (HRS) has been used to study the composition and
dynamics of exoplanetary atmospheres. In particular, the spectrometer CRIRES
installed on the ESO-VLT has been used to record high-resolution spectra in the
Near-IR of gaseous exoplanets. Here we present a new automatic pipeline to
analyze CRIRES data-sets. Said pipeline is based on a novel use of Principal
Component Analysis (PCA) and Cross-Correlation Function (CCF). The exoplanetary
atmosphere is modeled with the -REx code using opacities at high
temperature from the ExoMol project. In this work, we tested our analysis tools
on the detection of CO and HO in the atmospheres of the hot-Jupiters
HD209458b and HD189733b. The results of our pipeline are in agreement with
previous results in the literature and other techniques.Comment: 14 pages, 12 figures, 2 tables, published in Ap
Quantum Topological Invariants, Gravitational Instantons and the Topological Embedding
Certain topological invariants of the moduli space of gravitational
instantons are defined and studied. Several amplitudes of two and four
dimensional topological gravity are computed. A notion of puncture in four
dimensions, that is particularly meaningful in the class of Weyl instantons, is
introduced. The topological embedding, a theoretical framework for constructing
physical amplitudes that are well-defined order by order in perturbation theory
around instantons, is explicitly applied to the computation of the correlation
functions of Dirac fermions in a punctured gravitational background, as well as
to the most general QED and QCD amplitude. Various alternatives are worked out,
discussed and compared. The quantum background affects the propagation by
generating a certain effective ``quantum'' metric. The topological embedding
could represent a new chapter of quantum field theory.Comment: LaTeX, 18 pages, no figur
A multistage design procedure for planning and implementing public charging infrastructures for electric vehicles
Presented in this paper is a Multistage Design Procedure (MSDP) for planning and implementing Public Charging Infrastructures (PCIs) to satisfy intracity charging demand of Electric Vehicles (EVs). The proposed MSDP splits planning and design processes into multiple stages, from macroscale to fine-scale levels. Consequently, the preliminary results achieved at each stage can be refined at the subsequent stages, leading to determine the accurate number and precise geographical location of each charging point. The main advantage of the proposed approach is that it splits a very complicated procedure into multiple and simpler stages, at each of which appropriate goals, targets and constraints can be included. As a result, the iterative interactions among all the stakeholders involved in the PCI design process are significantly simplified. The proposed MSDP has been employed in the planning and design of the PCI of the Italian island of Sardinia, accordingly to all the public bodies
Kinematic Foot Types in Youth with Equinovarus Secondary to Hemiplegia
Background Elevated kinematic variability of the foot and ankle segments exists during gait among individuals with equinovarus secondary to hemiplegic cerebral palsy (CP). Clinicians have previously addressed such variability by developing classification schemes to identify subgroups of individuals based on their kinematics. Objective To identify kinematic subgroups among youth with equinovarus secondary to CP using 3-dimensional multi-segment foot and ankle kinematics during locomotion as inputs for principal component analysis (PCA), and K-means cluster analysis. Methods In a single assessment session, multi-segment foot and ankle kinematics using the Milwaukee Foot Model (MFM) were collected in 24 children/adolescents with equinovarus and 20 typically developing children/adolescents. Results PCA was used as a data reduction technique on 40 variables. K-means cluster analysis was performed on the first six principal components (PCs) which accounted for 92% of the variance of the dataset. The PCs described the location and plane of involvement in the foot and ankle. Five distinct kinematic subgroups were identified using K-means clustering. Participants with equinovarus presented with variable involvement ranging from primary hindfoot or forefoot deviations to deformtiy that included both segments in multiple planes. Conclusion This study provides further evidence of the variability in foot characteristics associated with equinovarus secondary to hemiplegic CP. These findings would not have been detected using a single segment foot model. The identification of multiple kinematic subgroups with unique foot and ankle characteristics has the potential to improve treatment since similar patients within a subgroup are likely to benefit from the same intervention(s)
Active set complexity of the Away-step Frank-Wolfe Algorithm
In this paper, we study active set identification results for the away-step
Frank-Wolfe algorithm in different settings. We first prove a local
identification property that we apply, in combination with a convergence
hypothesis, to get an active set identification result. We then prove, in the
nonconvex case, a novel convergence rate result and active set
identification for different stepsizes (under suitable assumptions on the set
of stationary points). By exploiting those results, we also give explicit
active set complexity bounds for both strongly convex and nonconvex objectives.
While we initially consider the probability simplex as feasible set, in the
appendix we show how to adapt some of our results to generic polytopes.Comment: 23 page
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