112 research outputs found
X-ray Astronomical Point Sources Recognition Using Granular Binary-tree SVM
The study on point sources in astronomical images is of special importance,
since most energetic celestial objects in the Universe exhibit a point-like
appearance. An approach to recognize the point sources (PS) in the X-ray
astronomical images using our newly designed granular binary-tree support
vector machine (GBT-SVM) classifier is proposed. First, all potential point
sources are located by peak detection on the image. The image and spectral
features of these potential point sources are then extracted. Finally, a
classifier to recognize the true point sources is build through the extracted
features. Experiments and applications of our approach on real X-ray
astronomical images are demonstrated. comparisons between our approach and
other SVM-based classifiers are also carried out by evaluating the precision
and recall rates, which prove that our approach is better and achieves a higher
accuracy of around 89%.Comment: Accepted by ICSP201
The Application of Continuous Wavelet Transform Based Foreground Subtraction Method in 21 cm Sky Surveys
We propose a continuous wavelet transform based non-parametric foreground
subtraction method for the detection of redshifted 21 cm signal from the epoch
of reionization. This method works based on the assumption that the foreground
spectra are smooth in frequency domain, while the 21 cm signal spectrum is full
of saw-tooth-like structures, thus their characteristic scales are
significantly different. We can distinguish them in the wavelet coefficient
space easily and perform the foreground subtraction. Compared with the
traditional spectral fitting based method, our method is more tolerant to
complex foregrounds. Furthermore, we also find that when the instrument has
uncorrected response error, our method can also work significantly better than
the spectral fitting based method. Our method can obtain similar results with
the Wp smoothing method, which is also a non-parametric method, but our method
consumes much less computing time.Comment: Accepted by Ap
Chandra Observation of a Weak Shock in the Galaxy Cluster A2556
Based on a 21.5 ks \chandra\ observation of A2556, we identify an edge on the
surface brightness profile (SBP) at about 160 kpc northeast of the
cluster center, and it corresponds to a shock front whose Mach number
is calculated to be . No prominent
substructure, such as sub-cluster, is found in either optical or X-ray band
that can be associated with the edge, suggesting that the conventional
super-sonic motion mechanism may not work in this case. As an alternative
solution, we propose that the nonlinear steepening of acoustic wave, which is
induced by the turbulence of the ICM at the core of the cluster, can be used to
explain the origin of the shock front. Although nonlinear steepening weak shock
is expected to occur frequently in clusters, why it is rarely observed still
remains a question that requires further investigation, including both deeper
X-ray observation and extensive theoretical studies.Comment: 15 pages, 4 figures, accepted by Ap
Radio Sources in the NCP Region Observed with the 21 Centimeter Array
We present a catalog of 624 radio sources detected around the North Celestial
Pole (NCP) with the 21 Centimeter Array (21CMA), a radio interferometer
dedicated to the statistical measurement of the epoch of reionization (EoR).
The data are taken from a 12 h observation made on 2013 April 13, with a
frequency coverage from 75 to 175 MHz and an angular resolution of ~ 4 arcmin.
The catalog includes flux densities at eight sub-bands across the 21CMA
bandwidth and provides the in-band spectral indices for the detected sources.
To reduce the complexity of interferometric imaging from the so-called "w" term
and ionospheric effects, the present analysis are restricted to the east-west
baselines within 1500 m only. The 624 radio sources are found within 5 degrees
around the NCP down to ~ 0.1 Jy. Our source counts are compared, and also
exhibit a good agreement, with deep low-frequency observations made recently
with the GMRT and MWA. In particular, for fainter radio sources below ~ 1 Jy,
we find a flattening trend of source counts towards lower frequencies. While
the thermal noise (~0.4 mJy) is well controlled to below the confusion limit,
the dynamical range (~10^4) and sensitivity of current 21CMA imaging is largely
limited by calibration and deconvolution errors, especially the grating lobes
of very bright sources, such as 3C061.1, in the NCP field which result from the
regular spacings of the 21CMA. We note that particular attention should be paid
to the extended sources, and their modeling and removals may constitute a large
technical challenge for current EoR experiments. Our analysis may serve as a
useful guide to design of next generation low-frequency interferometers like
the Square Kilometre Array.Comment: 16 pages, 21 figures, 7 tables, 1 machine readable table, accepted
for publication in Ap
Chandra Study of X-Ray Point Sources in the Early-Type Galaxy NGC 4552 (M89)
We present a Chandra ACIS study of the early-type galaxy NGC 4552. We detect
47 X-ray point sources, most of which are likely LMXBs, within 4 R_e. The
brightest X-ray source coincides with the optical/UV/radio center of the
galaxy, and shows variability on >1 hr timescales, indicating the possible
existence of a LLAGN. The 46 off-center sources and the unresolved point
sources contribute about 29% and 20% to the total luminosity of the galaxy,
respectively. The corrected cumulative XLF of the off-center sources is best
fit by a broken power-law model with a break at L_b=4.4+2.0-1.4 e38 ergs/s. We
identified 210 GCs candidates in a HST WFPC2 optical image of the galaxy's
central region. Of the 25 off-center LMXBs that fall within the WFPC2 FOV, 10
sources are coincident with a GC. Thus the fraction of the GCs hosting bright
LMXBs and the fraction of the LMXBs associated with GCs are 4.8% and 40%,
respectively. In the V and I bands, the GCs hosting bright LMXBs are typically
1-2 magnitudes brighter than the GCs with no detected LMXBs. There are about
1.9+-0.4 times as many LMXBs in the red, metal-rich GCs as there are in the
blue, metal-poor ones. We find no obvious difference between the luminosity
distributions of LMXBs in GCs and in field, but the cumulative spectrum of the
LMXBs in GCs tends to be softer than that of the LMXBs in field. We detected 3
X-ray sources that have isotropic luminosities larger than 1e39 erg/s. The one
located in the joint Chandra-HST field is found to be associated with a GC. By
studying the ACIS spectra we infer that the this may be a candidate black hole
system with a mass of 15-135 M_sun. One of the other sources with a luminosity
brighter than 1e39 ergs/s reveals temporal variations in brightness on
timescales greater than an hour.Comment: Accepted for publication in Ap
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