790 research outputs found
A Next Generation High-speed Data Acquisition System for Multi-channel Infrared and Optical Photometry
We report the design, operation, and performance of a next generation
high-speed data acquisition system for multi-channel infrared and optical
photometry based on the modern technologies of Field Programmable Gate Arrays,
the Peripheral Component Interconnect bus, and the Global Positioning System.
This system allows either direct recording of photon arrival times or binned
photon counting with time resolution up to 1-s precision in Universal
Time, as well as real-time data monitoring and analysis. The system also allows
simultaneous recording of multi-channel observations with very flexible,
reconfigurable observational modes. We present successful 20-s resolution
simultaneous observations of the Crab Nebula Pulsar in the infrared (H-band)
and optical (V-band) wavebands obtained with this system and 100-s
resolution V-band observations of the dwarf nova IY Uma with the 5-m Hale
telescope at the Palomar Observatory.Comment: 11 pages, including 4 figures, to appear in PAS
A Near-Infrared Study of the Highly-Obscured Active Star-Forming Region W51B
We present wide-field JHKs-band photometric observations of the three compact
HII regions G48.9-0.3, G49.0-0.3, and G49.2-0.3 in the active star-forming
region W51B. The star clusters inside the three compact HII regions show the
excess number of stars in the J-Ks histograms compared with reference fields.
While the mean color excess ratio E(J-H)/E(H-Ks) of the three compact HII
regions are similar to ~ 2.07, the visual extinctions toward them are somewhat
different: ~ 17 mag for G48.9-0.3 and G49.0-0.3; ~ 23 mag for G49.2-0.3. Based
on their sizes and brightnesses, we suggest that the age of each compact HII
region is =< 2 Myr. The inferred total stellar mass, ~ 1.4 x 10^4 M_sun, of
W51B makes it one of the most active star forming regions in the Galaxy with
the star formation efficiency of ~ 10 %.Comment: 12 pages, 10 eps figures, uses jkas.st
Near-Infrared Spectroscopy of Infrared-Excess Stellar Objects in the Young Supernova Remnant G54.1+0.3
We present the results of broadband near-infrared spectroscopic observations of the recently discovered mysterious stellar objects in the young supernova remnant G54.1+0.3. These objects, which show significant mid-infrared-excess emission, are embedded in a diffuse loop structure of ~1' in radius. Their near-infrared spectra reveal characteristics of late O- or early B-type stars with numerous H and He I absorption lines, and we classify their spectral types to be between O9 and B2 based on an empirical relation derived here between the equivalent widths of the H lines and stellar photospheric temperatures. The spectral types, combined with the results of spectral energy distribution fits, constrain the distance to the objects to be 6.0 ± 0.4 kpc. The photometric spectral types of the objects are consistent with those from the spectroscopic analyses, and the extinction distributions indicate a local enhancement of matter in the western part of the loop. If these objects originate via triggered formation by the progenitor star of G54.1+0.3, then their formations likely began during the later evolutionary stages of the progenitor, although a rather earlier formation may still be possible. If the objects and the progenitor belong to the same cluster of stars, then our results constrain the progenitor mass of G54.1+0.3 to be between 18 and ~35 M_☉ and suggest that G54.1+0.3 was either a Type IIP supernova or, with a relatively lower possibility, Type Ib/c from a binary system
Discovery of a rapid, luminous nova in NGC 300 by the KMTNet Supernova Program
We present the discovery of a rapidly evolving transient by the Korean
Microlensing Telescope Network Supernova Program (KSP). KSP is a novel
high-cadence supernova survey that offers deep ( mag in bands)
nearly continuous wide-field monitoring for the discovery of early and/or fast
optical transients. KSP-OT-201509a, reported here, was discovered on 2015
September 27 during the KSP commissioning run in the direction of the nearby
galaxy NGC~300, and stayed above detection limit for 22 days. We use our
light-curves to constrain the ascent rate, mag day in
, decay time scale, days, and peak absolute magnitude,
mag. We also find evidence for a short-lived
pre-maximum halt in all bands. The peak luminosity and lightcurve evolution
make KSP-OT-201509a consistent with a bright, rapidly decaying nova outburst.
We discuss constraints on the nature of the progenitor and its environment
using archival HST/ACS images and conclude with a broad discussion on the
nature of the system.Comment: 7 pages in aastex6 two-column format, 4 figures; accepted in Ap
Discovery of Coupling between Periodic and Aperiodic Variability and X-ray Quasi-periodic Oscillations from Her X-1
We report the discovery of coupling between periodic and aperiodic
variability and ~12-mHz X-ray quasi-periodic oscillations (QPOs) from the X-ray
binary pulsar Her X-1 using data from the Rossi X-Ray Timing Explorer. We found
two different couplings, one during the pre-eclipse dips and the other during
the normal state of the source, using a method which directly compares the
low-frequency power-density spectra (PDS) with those of the sidebands around
the coherent pulse frequency. The pre-eclipse dip lightcurves show significant
time variation of photon counts, and this variation appears in the PDS as both
strong mHz powers and well-developed sidebands around the coherent pulse
frequency. The linear correlation coefficients between the mHz PDS and the
sideband PDS obtained from two pre-eclipse dip data segments are 0.880 +- 0.003
and 0.982 +- 0.001, respectively. This very strong coupling demonstrates that
the amplitudes of the coherent pulsations are almost exactly modulated by the
aperiodic variabilities, suggesting that both the periodic and aperiodic
variabilities are related to time variation of obscuration of X-rays from the
central pulsar by an accretion disk during pre-eclipse dips. We also found weak
coupling during the normal state of the source, together with ~12-mHz QPOs. The
normal state coupling seems to reconcile with the prediction that the aperiodic
variabilities from X-ray binary pulsars are due to time-varying accretion flows
onto the pulsar's magnetic poles. If the ~12-mHz QPOs are due to global-normal
disk oscillations caused by the gravitational interactions between the central
pulsar and the accretion disk, the inferred inner-disk radius is roughly
comparable to the magnetospheric radius, ~1 10^8 cm.Comment: 13 pages (including 5 figures), submitted to ApJL (revised after
referee's report
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