446 research outputs found
Dust in Hot Plasma of Nearby Dusty Elliptical Galaxies Observed with the Spitzer Space Telescope
We report on mid- and far-IR Spitzer observations of 7 nearby dusty
elliptical galaxies by using the Multiband Imaging Photometer (MIPS) and
Infrared Spectrograph (IRS). Our sample galaxies are known to contain an
excessive amount of interstellar dust against sputtering destruction in hot
plasma filling the interstellar space of elliptical galaxies. In order to study
the origin and the properties of the excess dust in the hot plasma, we selected
galaxies with a wide range of X-ray luminosities but similar optical luminos
ities for our Spitzer Guest Observers (GO1) program. The 7 galaxies are
detected at the MIPS 24 um, 70 um, and 160 um bands; the far- to mid-IR flux
ratios of relatively X-ray-bright elliptical galaxies are lower than those of
X-ray-faint galaxies. From the IRS spectra, polycyclic aromatic hydrocarbon
(PAH) emission features are detected significantly from 5 of the 7 galaxies; t
he emission intensities are weaker as the X-ray luminosity of the galaxy is
larger. We have found a correlation between the far- to mid-IR flux ratio and
the equivalent width of the PAH emission feature. We have obtained apparent
spatial correspondence between mid-IR and X-ray distributions in the outer
regions for the three X-ray-brightest galaxies in our sample. Possible
interpretations for our observational results are discussed.Comment: 25 pages, 7 figures, accepted for publication in Publications of the
Astronomical Society of Japa
Diffraction-limited Subaru imaging of M82: sharp mid-infrared view of the starburst core
We present new imaging at 12.81 and 11.7 microns of the central ~40"x30"
(~0.7x0.5 kpc) of the starburst galaxy M82. The observations were carried out
with the COMICS mid-infrared (mid-IR) imager on the 8.2m Subaru telescope, and
are diffraction-limited at an angular resolution of <0".4. The images show
extensive diffuse structures, including a 7"-long linear chimney-like feature
and another resembling the edges of a ruptured bubble. This is the clearest
view to date of the base of the kpc-scale dusty wind known in this galaxy.
These structures do not extrapolate to a single central point, implying
multiple ejection sites for the dust. In general, the distribution of dust
probed in the mid-IR anticorrelates with the locations of massive star clusters
that appear in the near-infrared. The 10-21 micron mid-IR emission,
spatially-integrated over the field of view, may be represented by hot dust
with temperature of ~160 K. Most discrete sources are found to have extended
morphologies. Several radio HII regions are identified for the first time in
the mid-IR. The only potential radio supernova remnant to have a mid-IR
counterpart is a source which has previously also been suggested to be a weak
active galactic nucleus. This source has an X-ray counterpart in Chandra data
which appears prominently above 3 keV and is best described as a hot (~2.6 keV)
absorbed thermal plasma with a 6.7 keV Fe K emission line, in addition to a
weaker and cooler thermal component. The mid-IR detection is consistent with
the presence of strong [NeII]12.81um line emission. The broad-band source
properties are complex, but the X-ray spectra do not support the active
galactic nucleus hypothesis. We discuss possible interpretations regarding the
nature of this source.Comment: Accepted for publication in PASJ Subaru special issue. High
resolution version available temporarily at
http://www.astro.isas.jaxa.jp/~pgandhi/pgandhi_m82.pd
Search for the Infrared Emission Features from Deuterated Interstellar Polycyclic Aromatic Hydrocarbons
We report the results of a search for emission features from interstellar
deuterated polycyclic aromatic hydrocarbons (PAHs) in the 4um region with the
Infrared Camera (IRC) onboard AKARI. No significant excess emission is seen in
4.3-4.7um in the spectra toward the Orion Bar and M17 after the subtraction of
line emission from the ionized gas. A small excess of emission remains at
around 4.4 and 4.65um, but the ratio of their intensity to that of the band
emission from PAHs at 3.3-3.5um is estimated as 2-3%. This is an order of
magnitude smaller than the values previously reported and also those predicted
by the model of deuterium depletion onto PAHs. Since the subtraction of the
ionized gas emission introduces an uncertainty, the deuterated PAH features are
also searched for in the reflection nebula GN 18.14.0, which does not show
emission lines from ionized gas. We obtain a similar result that excess
emission in the 4um region, if present, is about 2% of the PAH band emission in
the 3um region. The present study does not find evidence for the presence of
the large amount of deuterated PAHs that the depletion model predicts. The
results are discussed in the context of deuterium depletion in the interstellar
medium.Comment: 24 pages, 6 figures, to appear in Ap
Unusual Carbonaceous Dust Distribution in PN G095.2+00.7
We investigate the polycyclic aromatic hydrocarbon features in the young
Galactic planetary nebula PN G095.2+00.7 based on mid-infrared observations.
The near- to mid-infrared spectra obtained with the AKARI/IRC and the
Spitzer/IRS show the PAH features as well as the broad emission feature at 12
{\mu}m usually seen in proto-planetary nebulae (pPNe). The spatially resolved
spectra obtained with Subaru/COMICS suggest that the broad emission around 12
{\mu}m is distributed in a shell-like structure, but the unidentified infrared
band at 11.3 {\mu}m is selectively enhanced at the southern part of the nebula.
The variation can be explained by a difference in the amount of the UV
radiation to excite PAHs, and does not necessarily require the chemical
processing of dust grains and PAHs. It suggests that the UV self-extinction is
important to understand the mid-infrared spectral features. We propose a
mechanism which accounts for the evolutionary sequence of the mid-infrared dust
features seen in a transition from pPNe to PNe.Comment: 6 pages, 4 figure
Characterization and Improvement of the Image Quality of the Data Taken with the Infrared Camera (IRC) Mid-Infrared Channels onboard AKARI
Mid-infrared images frequently suffer artifacts and extended point spread
functions (PSFs). We investigate the characteristics of the artifacts and the
PSFs in images obtained with the Infrared Camera (IRC) onboard AKARI at four
mid-infrared bands of the S7 (7{\mu}m), S11 (11{\mu}m), L15 (15{\mu}m), and L24
(24 {\mu}m). Removal of the artifacts significantly improves the reliability of
the ref- erence data for flat-fielding at the L15 and L24 bands. A set of
models of the IRC PSFs is also constructed from on-orbit data. These PSFs have
extended components that come from diffraction and scattering within the
detector arrays. We estimate the aperture correction factors for point sources
and the surface brightness correction factors for diffuse sources. We conclude
that the surface brightness correction factors range from 0.95 to 0.8, taking
account of the extended component of the PSFs. To correct for the extended PSF
effects for the study of faint structures, we also develop an image
reconstruction method, which consists of the deconvolution with the PSF and the
convolution with an appropriate Gaussian. The appropriate removal of the
artifacts, improved flat-fielding, and image reconstruction with the extended
PSFs enable us to investigate de- tailed structures of extended sources in IRC
mid-infrared images.Comment: 35 pages, 15 figures, accepted for publication in PAS
Properties of polycyclic aromatic hydrocarbons in local elliptical galaxies revealed by the Infrared Spectrograph on Spitzer
We performed mid-infrared spectroscopic observations of 18 local dusty
elliptical galaxies by using the Infrared Spectrograph (IRS) on board Spitzer.
We have significantly detected polycyclic aromatic hydrocarbon (PAH) features
from 14 out of the 18 galaxies, and thus found that the presence of PAHs is not
rare but rather common in dusty elliptical galaxies. Most of these galaxies
show an unusually weak 7.7 um emission feature relative to 11.3 um and 17 um
emission features. A large fraction of the galaxies also exhibit H2 rotational
line and ionic fine-structure line emissions, which have no significant
correlation with the PAH emissions. The PAH features are well correlated with
the continuum at 35 um, whereas they are not correlated with the continuum at 6
um. We conclude that the PAH emission of the elliptical galaxies is mostly of
interstellar origin rather than of stellar origin, and that the unusual PAH
interband strength ratios are likely to be due to a large fraction of neutral
to ionized PAHs.Comment: 26 pages, 6 figures, accepted for publication in the Ap
Temperature dependence of ESR intensity for the nanoscale molecular magnet V15
The electron spin resonance (ESR) of nanoscale molecular magnet is studied. Since the Hamiltonian of has a large
Hilbert space and numerical calculations of the ESR signal evaluating the Kubo
formula with exact diagonalization method is difficult, we implement the
formula with the help of the random vector technique and the Chebyshev
polynominal expansion, which we name the double Chebyshev expansion method. We
calculate the temperature dependence of the ESR intensity of and
compare it with the data obtained in experiment. As another complementary
approach, we also implement the Kubo formula with the subspace iteration method
taking only important low-lying states into account. We study the ESR
absorption curve below by means of both methods. We find that side
peaks appear due to the Dzyaloshinsky-Moriya interaction and these peaks grows
as temperature decreases.Comment: 9 pages, 4 figures. To appear in J. Phys. Soc. Jpn. Supp
Spectroscopic observations of ices around embedded young stellar objects in the Large Magellanic Cloud with AKARI
The aim of this study is to understand the chemical conditions of ices around
embedded young stellar objects (YSOs) in the metal-poor Large Magellanic Cloud
(LMC). We performed near-infrared (2.5-5 micron) spectroscopic observations
toward 12 massive embedded YSOs and their candidates in the LMC using the
Infrared Camera (IRC) onboard AKARI. We estimated the column densities of the
H2O, CO2, and CO ices based on their 3.05, 4.27, and 4.67 micron absorption
features, and we investigated the correlation between ice abundances and
physical properties of YSOs.The ice absorption features of H2O, CO2, 13CO2, CO,
CH3OH, and possibly XCN are detected in the spectra. In addition, hydrogen
recombination lines and PAH emission bands are detected toward the majority of
the targets. The derived typical CO2/H2O ice ratio of our samples (~0.36 +-
0.09) is greater than that of Galactic massive YSOs (~0.17 +- 0.03), while the
CO/H2O ice ratio is comparable. It is shown that the CO2 ice abundance does not
correlate with the observed characteristics of YSOs; the strength of hydrogen
recombination line and the total luminosity. Likewise, clear no correlation is
seen between the CO ice abundance and YSO characteristics, but it is suggested
that the CO ice abundance of luminous samples is significantly lower than in
other samples.The systematic difference in the CO2 ice abundance around the
LMC's massive YSOs, which was suggested by previous studies, is confirmed with
the new near-infrared data. We suggest that the strong ultraviolet radiation
field and/or the high dust temperature in the LMC are responsible for the
observed high abundance of the CO2 ice. It is suggested that the internal
stellar radiation does not play an important role in the evolution of the CO2
ice around a massive YSO, while more volatile molecules like CO are susceptible
to the effect of the stellar radiation.Comment: 12 pages, 8 figures, 5 tables, accepted for Astronomy & Astrophysics
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