856 research outputs found
APEX observations of supernova remnants - I. Non-stationary MHD-shocks in W44
Aims. The interaction of supernova remnants (SNRs) with molecular clouds
gives rise to strong molecular emission in the far-IR and sub-mm wavelength
regimes. The application of MHD shock models in the interpretation of this line
emission can yield valuable information on the energetic and chemical impact of
supernova remnants. Methods. New mapping observations with the APEX telescope
in CO (3-2), (4-3), (6-5), (7-6) and 13CO (3-2) towards two regions in the
supernova remnant W44 are presented. Integrated intensities are extracted on
five different positions, corresponding to local maxima of CO emission. The
integrated intensities are compared to the outputs of a grid of models, which
combine an MHD shock code with a radiative transfer module based on the large
velocity gradient approximation. Results. All extracted spectra show ambient
and line-of-sight components as well as blue- and red-shifted wings indicating
the presence of shocked gas. Basing the shock model fits only on the
highest-lying transitions that unambiguously trace the shock-heated gas, we
find that the observed CO line emission is compatible with non-stationary
shocks and a pre-shock density of 10^4 cm-3. The ages of the modelled shocks
scatter between values of \sim1000 and \sim3000 years. The shock velocities in
W44F are found to lie between 20 and 25 km/s, while in W44E fast shocks (30-35
km/s) as well as slower shocks (\sim20 km/s) are compatible with the observed
spectral line energy diagrams. The pre-shock magnetic field strength components
perpendicular to the line of sight in both regions have values between 100 and
200 \muG. Our best-fitting models allow us to predict the full ladder of CO
transitions, the shocked gas mass in one beam as well as the momentum- and
energy injection.Comment: 20 pages, 13 figures, 13 tables, accepted for publication in
Astronomy and Astrophysic
APEX telescope observations of new molecular ions
Hydrides are key ingredients of interstellar chemistry since they are the
initial products of chemical networks that lead to the formation of more
complex molecules. The fundamental rotational transitions of light hydrides
fall into the submillimeter wavelength range. Using the APEX telescope, we
observed the long sought hydrides SH+ and OH+ in absorption against the strong
continuum source Sagittarius B2(M). Both, absorption from Galactic center gas
as well as from diffuse clouds in intervening spiral arms over a large velocity
range is observed. The detected absorption of a continuous velocity range on
the line of sight shows these hydrides to be an abundant component of diffuse
clouds. In addition, we used the strongest submillimeter dust continuum sources
in the inner Galaxy to serve as background candles for a systematic census of
these hydrides in diffuse clouds and massive star forming regions of our Galaxy
and initial results of this survey are presented.Comment: To appear in Spectroscopy of Molecular Ions in the Laboratory and in
Space (SMILES 2010), AIP Conference Proceedings, in pres
Mid- and high-J CO observations towards UCHIIs
A study of 12 ultracompact HII regions was conducted to probe the physical
conditions and kinematics in the inner envelopes of the molecular clumps
harboring them. The APEX telescope was used to observe the sources in the CO
(4-3) and 13CO (8-7) lines. Line intensities were modeled with the RATRAN
radiative transfer code using power laws for the density and temperature to
describe the physical structure of the clumps. All sources were detected in
both lines. The optically thick CO (4-3) line shows predominantly blue skewed
profiles reminiscent of infall. Line intensities can be reproduced well using
the physical structure of the clumps taken from the literature. The optically
thick line profiles show that CO is a sensitive tracer of ongoing infall in the
outer envelopes of clumps harboring ultracompact HII regions and hot molecular
cores.Comment: APEX A&A special issue, accepte
Cold CO gas in the envelopes of FU Orionis-type young eruptive stars
FUors are young stellar objects experiencing large optical outbursts due to
highly enhanced accretion from the circumstellar disk onto the star. FUors are
often surrounded by massive envelopes, which play a significant role in the
outburst mechanism. Conversely, the subsequent eruptions might gradually clear
up the obscuring envelope material and drive the protostar on its way to become
a disk-only T Tauri star. Here we present an APEX CO and CO
survey of eight southern and equatorial FUors. We measure the mass of the
gaseous material surrounding our targets. We locate the source of the CO
emission and derive physical parameters for the envelopes and outflows, where
detected. Our results support the evolutionary scenario where FUors represent a
transition phase from envelope-surrounded protostars to classical T Tauri
stars.Comment: 5 pages, 3 figures, accepted for publication in the Ap
[CII] 158m and [NII] 205m emission from IC 342 - Disentangling the emission from ionized and photo-dissociated regions
Aims: We investigate how much of the [CII] emission in the nucleus of the
nearby spiral galaxy IC 342 is contributed by PDRs and by the ionized gas. We
examine the spatial variations of starburst/PDR activity and study the
correlation of the [CII] line with the [NII] 205{\textmu}m emission line coming
exclusively from the HII regions. Methods: We present small maps of [CII] and
[NII] lines recently observed with the GREAT receiver on board SOFIA. In
particular we present a super-resolution method to derive how unresolved,
kinematically correlated structures in the beam contribute to the observed line
shapes. Results: We find that the emission coming from the ionized gas shows a
kinematic component in addition to the general Doppler signature of the
molecular gas. We interpret this as the signature of two bi-polar lobes of
ionized gas expanding out of the galactic plane. We then show how this requires
an adaptation of our understanding of the geometrical structure of the nucleus
of IC~342. Examining the starburst activity we find ratios
between 400 and 1800 in energy units.
Applying predictions from numerical models of HII and PDR regions to derive the
contribution from the ionized phase to the total [CII] emission we find that
35-90% of the observed [CII] intensity stems from the ionized gas if both
phases contribute. Averaged over the central few hundred parsec we find for the
[CII] contribution a HII-to-PDR ratio of 70:30. Conclusions: The ionized gas in
the center of IC 342 contributes more strongly to the overall [CII] emission
than is commonly observed on larger scales and than is predicted. Kinematic
analysis shows that the majority of the [CII] emission is related to the strong
but embedded star formation in the nuclear molecular ring and only marginally
emitted from the expanding bi-polar lobes of ionized gas.Comment: 20 pages spectra available online:
http://cdsweb.u-strasbg.fr/cgi-bin/qcat?J/A+A/ submitted to and accepted by
A&
Dietrich Schulte-Frohlinde (1924 – 2015)
Professor Dietrich Schulte-Frohlinde, a distinguished German chemist with long-time relationships to Croatian scientists (e.g. S. Ašperger, M. Randić, J. N. Herak, A. Graovac, I. Kraljić), and this Journal, passed away on Oct 1st, 2015 in Chevy Chase MD, USA. He was born on Dec 17th, 1924 in Munich ...
This work is licensed under a Creative Commons Attribution 4.0 International License
Constraints on the distribution of gas and young stars in the Galactic Centre in the context of interpreting gamma ray emission features
Gamma ray observations have found evidence of an extremely energetic outflow emanating from the Galactic Centre, and an `excess' of emission at GeV energies towards the Galactic Centre over that expected from current models. Determining whether the outflow is AGN- or star formation-driven, and whether the `excess' is astrophysical in origin or requires new physics (e.g. self-annihilation of dark matter), requires the accurate modelling of the expected energy injection from astrophysical sources and the subsequent interaction with the surrounding environment. We briefly summarise current constraints on the distribution of gas and young stars in the inner few hundred parsec of the Galaxy that can be included in future 2D and 3D modelling of the astrophysical gamma ray emission. The key points to highlight with respect to predominantly axisymmetric models currently in use are: (i) the distribution of dense gas, young stars and interstellar radiation field is highly asymmetric around the Galactic Centre; (ii) star formation is almost exclusively constrained to a Galactocentric radius of ~100pc; (iii) the star formation rate in this region has been constant at <0.1Msun/yr to within a factor of 2 over the last ~5 Myr
Detection of vibrational emissions from the helium hydride ion (HeH) in the planetary nebula NGC 7027
We report the detection of emission in the v=1-0 P(1) (3.51629 micron) and
P(2) (3.60776 micron) rovibrational lines of the helium hydride cation (HeH+)
from the planetary nebula NGC 7027. These detections were obtained with the
iSHELL spectrograph on NASA's Infrared Telescope Facility (IRTF) on Maunakea.
The confirm the discovery of HeH+ reported recently by Guesten et al. (2019),
who used the GREAT instrument on the SOFIA airborne observatory to observe its
pure rotational J=1-0 transition at 149.137 micron. The flux measured for the
HeH+ v=1-0 P(1) line is in good agreement with our model for the formation,
destruction and excitation of HeH+ in NGC 7027. The measured strength of the
J=1-0 pure rotational line, however, exceeds the model prediction
significantly, as does that of the v=1-0 P(2) line, by factors of 2.9 and 2.3
respectively. Possible causes of these discrepancies are discussed. Our
observations of NGC 7027, covering the 3.26 - 3.93 micron spectral region, have
led to the detection of more than sixty spectral lines including nine
rovibrational emissions from CH+. The latter are detected for the first time in
an astronomical source.Comment: 49 pages, including 17 figures. Accepted for publication in Ap
- …