1,754 research outputs found
Simultaneous Spectroscopic and Photometric Observations of Binary Asteroids
We present results of visible wavelengths spectroscopic measurements (0.45 to
0.72 microns) of two binary asteroids, obtained with the 1-m telescope at the
Wise Observatory on January 2008. The asteroids (90) Antiope and (1509)
Esclangona were observed to search for spectroscopic variations correlated with
their rotation while presenting different regions of their surface to the
viewer. Simultaneous photometric observations were performed with the Wise
Observatory's 0.46-m telescope, to investigate the rotational phase behavior
and possible eclipse events. (90) Antiope displayed an eclipse event during our
observations. We could not measure any slope change of the spectroscopic albedo
within the error range of 3%, except for a steady decrease in the total light
flux while the eclipse took place. We conclude that the surface compositions of
the two components do not differ dramatically, implying a common origin and
history. (1509) Esclangona did not show an eclipse, but rather a unique
lightcurve with three peaks and a wide and flat minimum, repeating with a
period of 3.2524 hours. Careful measurements of the spectral albedo slopes
reveal a color variation of 7 to 10 percent on the surface of (1509)
Esclangona, which correlates with a specific region in the photometric
lightcurve. This result suggests that the different features on the lightcurve
are at least partially produced by color variations and could perhaps be
explained by the existence of an exposed fresh surface on (1509) Esclangona.Comment: 21 pages, 14 figures, 1 table, accepted for publication in
Meteoritics & Planetary Science (MAPS
Broad-line region structure and kinematics in the radio galaxy 3C 120
Broad emission lines originate in the surroundings of supermassive black
holes in the centers of active galactic nuclei (AGN). One method to investigate
the extent, structure, and kinematics of the BLR is to study the continuum and
line profile variability in AGN. We selected the radio-loud Seyfert 1 galaxy 3C
120 as a target for this study. We took spectra with a high signal-to-noise
ratio of 3C 120 with the 9.2m Hobby-Eberly Telescope between Sept. 2008 and
March 2009. In parallel, we photometrically monitored the continuum flux at the
Wise observatory. We analyzed the continuum and line profile variations in
detail (1D and 2D reverberation mapping) and modeled the geometry of the
line-emitting regions based on the line profiles. We show that the BLR in 3C
120 is stratified with respect to the distance of the line-emitting regions
from the center with respect to the line widths (FWHM) of the rms profiles and
with respect to the variability amplitude of the emission lines. The emission
line wings of H{\alpha} and H{\beta} respond much faster than their central
region. This is explained by accretion disk models. In addition, these lines
show a stronger response in the red wings. However, the velocity-delay maps of
the helium lines show a stronger response in the blue wing. Furthermore, the
HeII{\lambda}4686 line responds faster in the blue wing in contradiction to
observations made one and a half years later when the galaxy was in a lower
state. The faster response in the blue wing is an indication for central
outflow motions when this galaxy was in a bright state during our observations.
The vertical BLR structure in 3C 120 coincides with that of other AGN. We
confirm the general trend: the emission lines of narrow line AGN originate at
larger distances from the midplane than AGN with broader emission lines.Comment: 18 pages, 25 figures, Astronomy & Astrophysics in pres
X-Ray Timing, Spectroscopy and Photometry of the Anomalous X-Ray Pulsar Candidate CXOU J010043.1-721134
We present new X-ray timing and spectral results on the 8.0-second X-ray
pulsar CXOU J010043.1-721134 from a series of observations using the Chandra
X-ray Observatory. We find a spin period in 2004 January of 8.020392pm0.000009
seconds. Comparison of this to 2001 Chandra observations implies a period
derivative dot{P} = (1.88 pm 0.08) times 10^{-11} s s^{-1}, leading to an
inferred dipole surface magnetic field of 3.9 times 10^{14} G. The spectrum is
well fit to an absorbed blackbody of temperature kT = 0.38pm0.02 keV with a
power law tail of photon index Gamma = 2.0pm0.6. We find that the source has an
unabsorbed X-ray flux (0.5-10 keV) of 4(+2-1) times 10^{-13} erg cm^{-2} s^{-1}
and a corresponding X-ray luminosity of ~2 times 10^{35} erg s^{-1} for a
distance of 60 kpc. These properties support classification of CXOU
J010043.1-721134 as the seventh confirmed anomalous X-ray pulsar,the eleventh
confirmed magnetar, and the first magnetar to be identified in the Small
Magellanic Cloud.Comment: 5 pages, plus 1 embedded eps figure. Refined coordinates of source,
including typo in declination. ApJ Letters, in pres
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