334 research outputs found
What is the behavior of the ISM in the SMC?
We describe quantitatively the neutral hydrogen (HI) and dust content of the
interstellar medium (ISM) in the Small Magellanic Cloud (SMC), using the
spatial power spectrum. The velocity modification of the HI density power
spectrum is investigated and discussed.Comment: 4 pages, 2 figures, to appear in the proceedings of "The Evolution of
Galaxies: I Observational Clues", eds. J.M. Vilchez, G. Stasinska & E. Pere
Short-Spacings Correction from the Single-Dish Perspective
While, in general, interferometers provide high spatial resolution for
imaging small-scale structure (corresponding to high spatial frequencies in the
Fourier plane), single-dishes can be used to image the largest spatial scales
(corresponding to the lowest spatial frequencies), including the total power
(corresponding to zero spatial frequency). For many astrophysical studies, it
is essential to bring `both worlds' together by combining information over a
wide range of spatial frequencies. This article demonstrates the effects of
missing short-spacings, and discusses two main issues: (a) how to provide
missing short-spacings to interferometric data, and (b) how to combine
short-spacing single-dish data with those from an interferometer.Comment: 17 pages, uses newpasp.sty, to appear in the Proceedings of the
NAIC-NRAO School on Single-dish Radio Astronomy, ASP Conf. Serie
Single-facility Weber Location Problem based on the Lift Metric
The continuous single-facility min-sum Weber location problem based upon the
lift metric is investigated. An effective algorithm is developed for its
solution. Implementation for both the discrete and continuous location problems
is developed in the programming package Mathematica.Comment: 11 pages, 1 figur
Science with an ngVLA: Neutral Atomic Hydrogen in the Local Universe
One of the outstanding questions in astronomy today is how gas flows from the
circumgalactic medium (CGM) onto the disks of galaxies and then transitions
from the diffuse atomic medium into molecular star-forming cores. For studies
of the CGM, the Next Generation Very Large Array (ngVLA) will have the
sensitivity and resolution to measure the sizes of the neutral atomic hydrogen
(HI) disks of galaxies and complete a census of the HI content around galaxies.
Within galaxies, the ngVLA will be able to resolve HI clouds in large numbers
of galaxies beyond the Local Group providing measurements of the physical
conditions of gas across a wide range of galaxy types. Finally, within our own
Milky Way, the ngVLA will provide a dense grid of HI absorption spectra in the
cold and warm neutral medium constraining the temperature and density of atomic
gas as it transitions into molecular gas. Combined with radio continuum and
molecular line data from the ngVLA plus multi-wavelength data from other
planned facilities, ngVLA will have a key role in understanding star-formation
in the local universe while complementing future studies with the Square
Kilometer Array.Comment: To be published in the ASP Monograph Series, Science with a
Next-Generation VLA, ed. E. J. Murphy (ASP, San Francisco, CA); 12 pages, 3
figure
A new approach for short-spacing correction of radio interferometric data sets
The short-spacing problem describes the inherent inability of
radio-interferometric arrays to measure the integrated flux and structure of
diffuse emission associated with extended sources. New interferometric arrays,
such as SKA, require solutions to efficiently combine interferometer and
single-dish data.
We present a new and open source approach for merging single-dish and cleaned
interferometric data sets requiring a minimum of data manipulation while
offering a rigid flux determination and full high angular resolution. Our
approach combines single-dish and cleaned interferometric data in the image
domain. This approach is tested for both Galactic and extragalactic HI data
sets. Furthermore, a quantitative comparison of our results to commonly used
methods is provided. Additionally, for the interferometric data sets of NGC4214
and NGC5055, we study the impact of different imaging parameters as well as
their influence on the combination for NGC4214.
The approach does not require the raw data (visibilities) or any additional
special information such as antenna patterns. This is advantageous especially
in the light of upcoming radio surveys with heterogeneous antenna designs.Comment: 15 pages, accepted for publication by Astronomical Note
The small-scale structure of the Magellanic Stream
We have mapped in neutral hydrogen (HI) two regions at the northern tip of
the Magellanic Stream, known as MS V and MS VI, using the Arecibo telescope.
The small-scale structure of the MS shows clumpy and head-tail morphology. The
spatial power spectrum of this star-free intergalactic medium has a power-law
behavior with the density slope of -3.8. A gradual steepening of the power-law
slope is seen when increasing the thickness of velocity slices.Comment: 2 pages, 1 figure. To appear in the Proceedings of the Meeting on
Gaseous Matter in Galactic and Intergalactic Space, XVIIth IAP Colloquium,
Paris, June 200
Model-Free Optimization Using Eagle Perching Optimizer
The paper proposes a novel nature-inspired technique of optimization. It
mimics the perching nature of eagles and uses mathematical formulations to
introduce a new addition to metaheuristic algorithms. The nature of the
proposed algorithm is based on exploration and exploitation. The proposed
algorithm is developed into two versions with some modifications. In the first
phase, it undergoes a rigorous analysis to find out their performance. In the
second phase it is benchmarked using ten functions of two categories; uni-modal
functions and multi-modal functions. In the third phase, we conducted a
detailed analysis of the algorithm by exploiting its controlling units or
variables. In the fourth and last phase, we consider real world optimization
problems with constraints. Both versions of the algorithm show an appreciable
performance, but analysis puts more weight to the modified version. The
competitive analysis shows that the proposed algorithm outperforms the other
tested metaheuristic algorithms. The proposed method has better robustness and
computational efficiency.Comment: 14 pages, 8 figure
The tiny-scale atomic structure: gas cloudlets or scintillation phenomenon ?
We present preliminary results from the recent multi-epoch HI absorption
measurements toward several pulsars using the Arecibo telescope. We do not find
significant variations in optical depth profiles over periods of 4 months and 9
years. The upper limits on the optical depth variations in directions of
B0823+26 and B1133+16 are similar on scales of 10--20, 350 and 500 AU. The
large number of non detections of the tiny scale atomic structure suggests that
the AU-sized structure is not ubiquitous in the interstellar medium.Comment: To appear in the proceedings of "Magnetic fields and star formation:
theory versus observations", held in Madrid, April 21-25 2003. Uses Kluwer
latex style fil
Arecibo Multi-Epoch HI Absorption Measurements Against Pulsars: Tiny-Scale Atomic Structure
We present results from multi-epoch neutral hydrogen (HI) absorption
observations of six bright pulsars with the Arecibo telescope. Moving through
the interstellar medium (ISM) with transverse velocities of 10--150 AU/yr,
these pulsars have swept across 1--200 AU over the course of our experiment,
allowing us to probe the existence and properties of the tiny scale atomic
structure (TSAS) in the cold neutral medium (CNM). While most of the observed
pulsars show no significant change in their HI absorption spectra, we have
identified at least two clear TSAS-induced opacity variations in the direction
of B1929+10. These observations require strong spatial inhomogeneities in
either the TSAS clouds' physical properties themselves or else in the clouds'
galactic distribution. While TSAS is occasionally detected on spatial scales
down to 10 AU, it is too rare to be characterized by a spectrum of turbulent
CNM fluctuations on scales of 10-1000 AU, as previously suggested by some work.
In the direction of B1929+10, an apparent correlation between TSAS and
interstellar clouds inside the warm Local Bubble (LB) indicates that TSAS may
be tracing the fragmentation of the LB wall via hydrodynamic instabilities.
While similar fragmentation events occur frequently throughout the ISM, the
warm medium surrounding these cold cloudlets induces a natural selection effect
wherein small TSAS clouds evaporate quickly and are rare, while large clouds
survive longer and become a general property of the ISM.Comment: 21 pages, 13 figures, accepted by Ap
Core and Core-EP Inverses of Tensors
Specific definitions of the core and core-EP inverses of complex tensors are
introduced. Some characterizations, representations and properties of the core
and core-EP inverses are investigated. The results are verified using specific
algebraic approach, based on proposed definitions and previously verified
properties. The approach used here is new even in the matrix case.Comment: 2
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