30 results on '"Burton, M G"'
Search Results
2. Evolution in the Nucleus : A review of David Allen’s research into the nature of the Galactic Centre
- Author
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Burton, M. G., Blitz, Leo, editor, and Teuben, Peter, editor
- Published
- 1996
- Full Text
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3. Artillery Shells in Orion
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Burton, M. G., Allen, D. A., and McLean, Ian S., editor
- Published
- 1994
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4. Environmental conditions shaping star formation: the Carina Nebula.
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Contreras, Y, Rebolledo, D, Breen, S L, Green, A J, and Burton, M G
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NEBULAE ,STAR formation ,PHOTODISSOCIATION ,PARTICLE emissions ,RADIO lines - Abstract
Using the Mopra telescope, we have targeted 61 regions in the Carina Nebula, covering an area of 1.5 deg
2 , of bright and compact 870 |$\mu$| m dust continuum emission for molecular line emission from a host of 16 spectral lines at 3 mm, including several dense gas tracers. We found that the clumps detected in Carina in general have in average higher temperatures (27 K compared to 21 K), and lower masses (214 M⊙ compared to 508 M⊙ ) than clumps located at a similar distance to us in the Galactic plane. We compare the properties of the molecular line emission of these clumps with the MALT90 survey, finding that the detection rates of the molecular lines are similar to MALT90 clumps that are classified as photodissociation regions. However, most of the clumps located within 10 arcmin of η Carina have little molecular line emission detected in our observations. Given the lack of maser detection in the Carina region, we also compared the properties of the clumps in Carina to those of Galactic clumps associated with 6.7-GHz methanol masers. We found that the clumps in Carina are warmer, less massive, and show less emission from the four most commonly detected molecules, HCO+ , N2 H+ , HCN, and HNC, compared to clumps associated with masers in the Galactic Plane. Overall our results are consistent with the scenario in which the high radiation field of η Carina is dramatically affecting its local environment, and therefore the chemical composition of the dense clumps. [ABSTRACT FROM AUTHOR]- Published
- 2019
- Full Text
- View/download PDF
5. ATLASGAL - properties of a complete sample of Galactic clumps.
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Urquhart, J. S., König, C., Giannetti, A., Leurini, S., Moore, T. J. T., Eden, D. J., Pillai, T., Thompson, M. A., Braiding, C., Burton, M. G., Csengeri, T., Dempsey, J. T., Figura, C., Froebrich, D., Menten, K. M., Schuller, F., Smith, M. D., and Wyrowski, F.
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STAR formation ,GALACTIC dynamics ,STELLAR density (Stellar population) ,HIGH mass stars ,SUPERGIANT stars - Abstract
The APEX Telescope Large Area Survey of the Galaxy (ATLASGAL) is an unbiased 870 Ām submillimetre survey of the inner Galactic plane (∣l∣ < 60° with ∣b∣ < 1. °5). It is the largest and most sensitive ground-based submillimetre wavelength Galactic survey to date and has provided a large and systematic inventory of all massive, dense clumps in the Galaxy (≥1000M
☉ at a heliocentric distance of 20 kpc) and includes representative samples of all of the earliest embedded stages of high-mass star formation. Here, we present the first detailed census of the properties (velocities, distances, luminosities and masses) and spatial distribution of a complete sample of ~8000 dense clumps located in the Galactic disc (5° < ∣l∣ < 60°). We derive highly reliable velocities and distances to ~97 per cent of the sample and use midand far-infrared survey data to develop an evolutionary classification scheme that we apply to the whole sample. Comparing the evolutionary subsamples reveals trends for increasing dust temperatures, luminosities and linewidths as a function of evolution indicating that the feedback from the embedded protoclusters is having a significant impact on the structure and dynamics of their natal clumps. We find that the vast majority of the detected clumps are capable of forming a massive star and 88 per cent are already associated with star formation at some level. We find the clump mass to be independent of evolution suggesting that the clumps form with the majority of their mass in situ. We estimate the statistical lifetime of the quiescent stage to be ~5 × 104 yr for clump masses ~1000M☉ decreasing to ~1 × 104 yr for clump masses >10000M☉ . We find a strong correlation between the fraction of clumps associated with massive stars and peak column density. The fraction is initially small at low column densities, but reaching 100 per cent for column densities above 1023 cm-2 ; there are no clumps with column densities above this value that are not already associated with massive star formation. All of the evidence is consistent with a dynamic view of star formation wherein the clumps form rapidly and are initially very unstable so that star formation quickly ensues. [ABSTRACT FROM AUTHOR]- Published
- 2018
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- View/download PDF
6. Towards a three-dimensional distribution of the molecular clouds in the Galactic Centre.
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Qing-Zeng Yan, Walsh, A. J., Dawson, J. R., Macquart, J. P., Blackwell, R., Burton, M. G., Rowell, G. P., Bo Zhang, Ye Xu, Zheng-Hong Tang, and Hancock, P. J.
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MOLECULAR clouds ,GALACTIC center ,STAR formation ,MILKY Way ,GALAXY formation - Abstract
We present a study of the three-dimensional structure of the molecular clouds in the Galactic Centre (GC) using CO emission and OH absorption lines. Two CO isotopologue lines,
12 CO(J = 1 → 0) and13 CO(J = 1 → 0), and four OH ground-state transitions, surveyed by the Southern Parkes Large-Area Survey in Hydroxyl, contribute to this study. We develop a novel method to calculate the OH column density, excitation temperature and optical depth precisely using all four OH lines, and we employ it to derive a three-dimensional model for the distribution of molecular clouds in the GC for six slices in Galactic latitude. The angular resolution of the data is 15.5 arcmin, which at the distance of the GC (8.34 kpc) is equivalent to 38 pc. We find that the total mass of OH in the GC is in the range of 2400–5100 M⊚. The face-on view at a Galactic latitude of b = 0° displays a bar-like structure with an inclination angle of 67.5±2.1° with respect to the line of sight. No ring-like structure in the GC is evident in our data, likely due to the low-spatial resolution of the CO and OH maps. [ABSTRACT FROM AUTHOR]- Published
- 2017
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7. 6.7-GHz methanol maser associated outflows: an evolutionary sequence.
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de Villiers, H. M., Chrysostomou, A., Thompson, M. A., Urquhart, J. S., Breen, S. L., Burton, M. G., Ellingsen, S. P., Fuller, G. A., Pestalozzi, M., Voronkov, M. A., and Ward-Thompson, D.
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METHANOL ,MASERS ,OPTICAL materials ,DUST ,STELLAR evolution ,PROTOSTARS ,STAR formation - Abstract
We present a continuing study of a sample 44 molecular outflows, observed in
13 CO lines, closely associated with 6.7-GHz methanol masers, hence called methanol maser associated outflows (MMAOs).We compare MMAO properties with those of outflows from other surveys in the literature. In general, MMAOs follow similar trends, but show a deficit in number at low masses and momenta, with a corresponding higher fraction at the high end of the distributions. A similar trend is seen for the dynamical time-scales of MMAOs. We argue that the lack of relatively low mass and young flows in MMAOs is due to the inherent selection-bias in the sample, i.e. its direct association with 6.7-GHz methanol masers. This implies that methanol masers must switch on after the onset of outflows (hence accretion), and not before a sufficient abundance of methanol is liberated from icy dust mantles. Consequently the average dynamical age of MMAOs is older than for the general population of molecular outflows. We propose an adjusted evolutionary sequence of outflow and maser occurrence in the hot core phase, where methanol masers turn on after the onset of the outflow phase. [ABSTRACT FROM AUTHOR]- Published
- 2015
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8. Methanol maser associated outflows: detection statistics and properties.
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de Villiers, H. M., Chrysostomou, A., Thompson, M. A., Ellingsen, S. P., Urquhart, J. S., Breen, S. L., Burton, M. G., Csengeri, T., and Ward-Thompson, D.
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METHANOL ,ASTRONOMICAL masers ,HIGH energy forming ,STAR formation ,SUPERGIANT stars ,SUBMILLIMETER astronomy - Abstract
We have selected the positions of 54 6.7 GHz methanol masers from the Methanol Multibeam Survey catalogue, covering a range of longitudes between 20° and 34° of the Galactic plane. These positions were mapped in the J = 3-2 transition of both the 13CO and C18O lines. A total of 58 13CO emission peaks are found in the vicinity of these maser positions. We search for outflows around all 13CO peaks, and find evidence for high-velocity gas in all cases, spatially resolving the red and blue outflow lobes in 55 cases. Of these sources, 44 have resolved kinematic distances, and are closely associated with the 6.7 GHz masers, a subset referred to as Methanol Maser Associated Outflows (MMAOs). We calculate the masses of the clumps associated with each peak using 870 μm continuum emission from the ATLASGAL survey. A strong correlation is seen between the clump mass and both outflow mass and mechanical force, lending support to models in which accretion is strongly linked to outflow. We find that the scaling law between outflow activity and clump masses observed for low-mass objects, is also followed by the MMAOs in this study, indicating a commonality in the formation processes of low-mass and high-mass stars. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
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9. New detections of HC5N towards hot cores associated with 6.7 GHz methanol masers.
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Green, C.-E., Green, J. A., Burton, M. G., Horiuchi, S., Tothill, N. F. H., Walsh, A. J., Purcell, C. R., Lovell, J. E. J., and Millar, T. J.
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METHANOL ,ASTRONOMICAL masers ,STAR formation ,BUTADIYNE ,ASTRONOMICAL observations ,CLOUDS ,ASTROCHEMISTRY - Abstract
We present new detections of cyanodiacetylene (HC5N) towards hot molecular cores, observed with the Tidbinbilla 34 m radio telescope (DSS–34). In a sample of 79 hot molecular cores, HC5N was detected towards 35. These results are counter to the expectation that long chain cyanopolyynes, such as HC5N, are not typically found in hot molecular cores, unlike their shorter chain counterpart HC3N. However, it is consistent with recent models which suggest HC5N may exist for a limited period during the evolution of hot molecular cores. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
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10. The H2O Southern Galactic Plane Survey: NH3 (1,1) and (2,2) catalogues.
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Purcell, C. R., Longmore, S. N., Walsh, A. J., Whiting, M. T., Breen, S. L., Britton, T., Brooks, K. J., Burton, M. G., Cunningham, M. R., Green, J. A., Harvey-Smith, L., Hindson, L., Hoare, M. G., Indermuehle, B., Jones, P. A., Lo, N., Lowe, V., Phillips, C. J., Thompson, M. A., and Urquhart, J. S.
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STELLAR evolution ,STAR formation ,INTERSTELLAR medium ,ASTRONOMICAL masers ,WATER ,ASTRONOMICAL observations ,RADIO recombination lines - Abstract
ABSTRACT The H
2 O Southern Galactic Plane Survey (HOPS) has mapped a 100° strip of the Galactic plane (−70° > l > 30°, | b| < 0°.5) using the 22 m Mopra antenna at 12 mm wavelengths. Observations were conducted in on-the-fly mode using the Mopra spectrometer (MOPS), targeting water masers, thermal molecular emission and radio-recombination lines. Foremost among the thermal lines are the 23 GHz transitions of NH3 J,K = (1,1) and (2,2), which trace the densest parts of molecular clouds ( n > 104 cm−3 ). In this paper, we present the NH3 (1,1) and (2,2) data, which have a resolution of 2 arcmin and cover a velocity range of ±200 km s−1 . The median sensitivity of the NH3 data cubes is [ABSTRACT FROM AUTHOR]- Published
- 2012
- Full Text
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11. Multiline spectral imaging of dense cores in the Lupus molecular cloud.
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Benedettini, M., Pezzuto, S., Burton, M. G., Viti, S., Molinari, S., Caselli, P., and Testi, L.
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IMAGING systems in astronomy ,MOLECULAR clouds ,LARGE astronomical telescopes ,PROTOSTARS ,STAR formation ,MILLIMETER astronomy ,TRACE elements - Abstract
ABSTRACT The molecular clouds Lupus 1, 3 and 4 were mapped with the Mopra Telescope at 3 and 12 mm. Emission lines from high-density molecular tracers were detected, i.e. NH
3 (1,1), NH3 (2,2), N2 H+ (1−0), HC3 N (3−2), HC3 N (10−9), CS (2−1), CH3 OH (20 −10 )A+ and CH3 OH (2−1 −1−1 )E. Velocity gradients of more than 1 km s−1 are present in Lupus 1 and 3, and multiple gas components are present in these clouds along some lines of sight. Lupus 1 is the cloud richest in high-density cores: eight cores were detected in it, five cores were detected in Lupus 3 and only two in Lupus 4. The intensity of the three species HC3 N, NH3 and N2 H+ changes significantly in the various cores: cores that are brighter in HC3 N are fainter or undetected in NH3 and N2 H+ and vice versa. We found that the column density ratios HC3 N/N2 H+ and HC3 N/NH3 change by 1 order of magnitude between the cores, indicating that also the chemical abundance of these species is different. The time-dependent chemical code that we used to model our cores shows that the HC3 N/N2 H+ and HC3 N/NH3 ratios decrease with time, therefore the observed column density of these species can be used as an indicator of the chemical evolution of dense cores. On this basis we classified five out of eight cores in Lupus 1 and one out of five cores in Lupus 3 as very young protostars or pre-stellar cores. Comparing the millimetre core population with the population of the more evolved young stellar objects identified in the Spitzer surveys, we conclude that in Lupus 3 the bulk of the star formation activity has already passed and only a moderate number of stars are still forming. In contrast, in Lupus 1 star formation is ongoing and several dense cores are still in the pre-/protostellar phase. Lupus 4 is at an intermediate stage, with a smaller number of individual objects. [ABSTRACT FROM AUTHOR]- Published
- 2012
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12. Observations and radiative transfer modelling of a massive dense cold core in G333.
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Lo, N., Redman, M. P., Jones, P. A., Cunningham, M. R., Chhetri, R., Bains, I., and Burton, M. G.
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STAR observations ,RADIATIVE transfer ,SUPERGIANT stars ,STAR formation ,STELLAR mass ,KINEMATICS ,TURBULENCE ,STELLAR dynamics - Abstract
BSTRACT [ABSTRACT FROM AUTHOR]
- Published
- 2011
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13. 12 mm line survey of the dense molecular gas towards the W28 field TeV gamma-ray sources.
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Nicholas, B., Rowell, G., Burton, M. G., Walsh, A., Fukui, Y., Kawamura, A., Longmore, S., and Keto, E.
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GAS dynamics ,GAMMA rays ,STAR formation ,SUPERNOVA remnants ,COSMIC rays ,MOLECULAR clouds ,DISPERSION (Chemistry) - Abstract
We present 12 mm Mopra observations of dense molecular gas towards the W28 supernova remnant (SNR) field. The focus is on the dense molecular gas towards the TeV gamma-ray sources detected by the HESS telescopes, which likely trace the cosmic rays from W28 and possibly other sources in the region. Using the NH inversion transitions we reveal several dense cores inside the molecular clouds, the majority of which coincide with high-mass star formation and H regions, including the energetic ultracompact H region G5.890.39. A key exception to this is the cloud north-east of W28, which is well known to be disrupted as evidenced by clusters of 1720 MHz OH masers and broad CO line emission. Here we detect broad NH, up to the (9,9) transition, with linewidths up to 16 km s. This broad NH emission spatially matches well with the TeV source HESS J1801233 and CO emission, and its velocity dispersion distribution suggests external disruption from the W28 SNR direction. Other lines are detected, such as HCN and HCN, HO masers, and many radio recombination lines, all of which are primarily found towards the southern high-mass star formation regions. These observations provide a new view on to the internal structures and dynamics of the dense molecular gas towards the W28 SNR field and, in tandem with future higher-resolution TeV gamma-ray observations, will offer the chance to probe the transport of cosmic rays into molecular clouds. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
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14. Physical characterization of southern massive star-forming regions using Parkes NH3 observations.
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Hill, T., Longmore, S. N., Pinte, C., Cunningham, M. R., Burton, M. G., and Minier, V.
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SUPERGIANT stars ,STAR formation ,ASTRONOMICAL observations ,PROTOSTARS ,SPECTRAL energy distribution - Abstract
We have undertaken a Parkes ammonia spectral line study, in the lowest two inversion transitions, of southern massive star formation regions, including young massive candidate protostars, with the aim of characterizing the earliest stages of massive star formation. 138 sources from the submillimetre continuum emission studies of Hill et al. were found to have robust (1,1) detections, including two sources with two velocity components, and 102 in the (2,2) transition. We determine the ammonia line properties of the sources: linewidth, flux density, kinetic temperature, NH
3 column density and opacity, and revisit our spectral energy distribution modelling procedure to derive the mass for 52 of the sources. By combining the continuum emission information with ammonia observations we substantially constrain the physical properties of the high-mass clumps. There is clear complementarity between ammonia and continuum observations for derivations of physical parameters. The MM-only class, identified in the continuum studies of Hill et al., displays smaller sizes, mass and velocity dispersion and/or turbulence than star-forming clumps, suggesting a quiescent prestellar stage and/or the formation of less massive stars. [ABSTRACT FROM AUTHOR]- Published
- 2010
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15. Too large and overlooked? Extended free–free emission towards massive star formation regions.
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Longmore, S. N., Burton, M. G., Keto, E., Kurtz, S., and Walsh, A. J.
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STAR formation , *ASTRONOMICAL observations , *IONIZED gases , *SURVEYS , *ATTENUATION (Physics) - Abstract
We present Australia Telescope Compact Array observations towards six massive star formation regions, which, from their strong 24 GHz continuum emission but no compact 8 GHz continuum emission, appeared good candidates for hypercompact H ii regions. However, the properties of the ionized gas derived from the 19 to 93 GHz continuum emission and radio recombination line data show the majority of these sources are, in fact, regions of spatially extended, optically thin free–free emission. These extended sources were missed in the previous 8 GHz observations due to a combination of spatial filtering, poor surface brightness sensitivity and primary beam attenuation. We consider the implications that a significant number of these extended H ii regions may have been missed by previous surveys of massive star formation regions. If the original sample of 21 sources is representative of the population as a whole, the fact that six contain previously undetected extended free–free emission suggests a large number of regions have been mis-classified. Rather than being very young objects prior to UCH ii region formation, they are, in fact, associated with extended H ii regions and thus significantly older. In addition, inadvertently ignoring a potentially substantial flux contribution (up to ∼0.5 Jy) from free–free emission has implications for dust masses derived from sub-mm flux densities. The large spatial scales probed by single-dish telescopes, which do not suffer from spatial filtering, are particularly susceptible and dust masses may be overestimated by up to a factor of ∼2. [ABSTRACT FROM AUTHOR]
- Published
- 2009
- Full Text
- View/download PDF
16. Molecular line mapping of the giant molecular cloud associated with RCW 106 – III. Multimolecular line mapping.
- Author
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Lo, N., Cunningham, M. R., Jones, P. A., Bains, I., Burton, M. G., Wong, T., Muller, E., Kramer, C., Ossenkopf, V., Henkel, C., Deragopian, G., Donnelly, S., and Ladd, E. F.
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MOLECULAR clouds ,INTERSTELLAR medium ,PRINCIPAL components analysis ,STAR formation ,INTERSTELLAR molecules - Abstract
We present multimolecular line maps obtained with the Mopra telescope towards the southern giant molecular cloud (GMC) complex G333, associated with the H ii region RCW 106. We have characterized the GMC by decomposing the 3D data cubes withgaussclumps, and investigated spatial correlations among different molecules with principal component analysis (PCA). We find no correlation between clump size and linewidth, but a strong correlation between emission luminosity and linewidth. PCA classifies molecules into high- and low-density tracers, and reveals that HCO
+ and N2 H+ are anticorrelated. [ABSTRACT FROM AUTHOR]- Published
- 2009
- Full Text
- View/download PDF
17. Physical and chemical conditions in methanol maser selected hot cores and UCH ii regions.
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Purcell, C. R., Longmore, S. N., Burton, M. G., Walsh, A. J., Minier, V., Cunningham, M. R., and Balasubramanyam, R.
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STAR formation ,SOLAR radio emission ,STELLAR mass ,INTERSTELLAR molecules ,METHANOL - Abstract
We present the results of a targeted 3-mm spectral line survey towards the eighty-three 6.67 GHz methanol maser selected star-forming clumps observed by Purcell. In addition to the previously reported measurements of HCO
+ (1–0), H13 CO+ (1–0) and CH3 CN (5–4) and (6–5), we used the Mopra antenna to detect emission lines of N2 H+ (1–0), HCN (1–0) and HNC (1–0) towards 82/83 clumps (99 per cent), and CH3 OH (2–1) towards 78/83 clumps (94 per cent). The molecular line data have been used to derive virial and local thermodynamic equilibrium masses, rotational temperatures and chemical abundances in the clumps, and these properties have been compared between subsamples associated with different indicators of evolution. The greatest differences are found between clumps associated with 8.6 GHz radio emission, indicating the presence of an Ultra-Compact H ii (UCH ii) region, and ‘isolated’ masers (without associated radio emission), and between clumps exhibiting CH3 CN emission and those without. In particular, thermal CH3 OH is found to be brighter and more abundant in UCH ii regions and in sources with detected CH3 CN, and may constitute a crude molecular clock in single dish observations. Clumps associated with 8.6 GHz radio emission tend to be more massive and more luminous than clumps without radio emission. This is likely because the most massive clumps evolve so rapidly that a Hyper-Compact H ii or UCH ii region is the first visible tracer of star formation. The gas mass to submm/infrared luminosity relation for the combined sample was found to be , considerably shallower than expected for massive main-sequence stars. This implies that the mass of the clumps is comparable to, or greater than, the mass of the stellar content. We also find that the mass of the hot core is correlated with the mass of the clump in which it is embedded. [ABSTRACT FROM AUTHOR]- Published
- 2009
- Full Text
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18. Cyanopolyynes in hot cores: modelling G305.2+0.2.
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Chapman, J. F., Millar, T. J., Wardle, M., Burton, M. G., and Walsh, A. J.
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POLYYNES ,CHEMICAL models ,CHEMICAL reactions ,THERMODYNAMIC equilibrium ,SPECTRAL line formation ,STAR formation - Abstract
We present results from a time-dependent gas-phase chemical model of a hot core based on the physical conditions of G305.2+0.2. While the cyanopolyyne HC
3 N has been observed in hot cores, the longer chained species, HC5 N, HC7 N and HC9 N, have not been considered as the typical hot-core species. We present results which show that these species can be formed under hot core conditions. We discuss the important chemical reactions in this process and, in particular, show that their abundances are linked to the parent species acetylene which is evaporated from icy grain mantles. The cyanopolyynes show promise as ‘chemical clocks’ which may aid future observations in determining the age of hot core sources. The abundance of the larger cyanopolyynes increases and decreases over relatively short time-scales, . We present results from a non-local thermodynamic equilibrium statistical equilibrium excitation model as a series of density, temperature and column density dependent contour plots which show both the line intensities and several line ratios. These aid in the interpretation of spectral-line data, even when there is limited line information available. In particular, non-detections of HC5 N and HC7 N in Walsh et al. are analysed and discussed. [ABSTRACT FROM AUTHOR]- Published
- 2009
- Full Text
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19. Molecular line mapping of the giant molecular cloud associated with RCW 106 – II. Column density and dynamical state of the clumps.
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Wong, T., Ladd, E. F., Brisbin, D., Burton, M. G., Bains, I., Cunningham, M. R., Lo, N., Jones, P. A., Thomas, K. L., Longmore, S. N., Vigan, A., Mookerjea, B., Kramer, C., Fukui, Y., and Kawamura, A.
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MOLECULAR clouds ,STAR formation ,MOLECULES ,STELLAR structure ,MASS spectrometry ,VIRIAL theorem - Abstract
We present a fully sampled C
18 O (1–0) map towards the southern giant molecular cloud (GMC) associated with the H ii region RCW 106, and use it in combination with previous13 CO (1–0) mapping to estimate the gas column density as a function of position and velocity. We find localized regions of significant13 CO optical depth in the northern part of the cloud, with several of the high-opacity clouds in this region likely associated with a limb-brightened shell around the H ii region G333.6−0.2. Optical depth corrections broaden the distribution of column densities in the cloud, yielding a lognormal distribution as predicted by simulations of turbulence. Decomposing the13 CO and C18 O data cubes into clumps, we find relatively weak correlations between size and linewidth, and a more sensitive dependence of luminosity on size than would be predicted by a constant average column density. The clump mass spectrum has a slope near −1.7, consistent with previous studies. The most massive clumps appear to have gravitational binding energies well in excess of virial equilibrium; we discuss possible explanations, which include magnetic support and neglect of time-varying surface terms in the virial theorem. Unlike molecular clouds as a whole, the clumps within the RCW 106 GMC, while elongated, appear to show random orientations with respect to the Galactic plane. [ABSTRACT FROM AUTHOR]- Published
- 2008
- Full Text
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20. Spectral imaging of the Sagittarius B2 region in multiple 3-mm molecular lines with the Mopra telescope.
- Author
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Jones, P. A., Burton, M. G., Cunningham, M. R., Menten, K. M., Schilke, P., Belloche, A., Leurini, S., Ott, J., and Walsh, A. J.
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SPECTRAL line formation , *MOLECULES , *STAR formation , *KINEMATICS , *RADIO lines , *MOLECULAR clouds , *ASTRONOMICAL research - Abstract
Using the Mopra telescope, we have undertaken a 3-mm spectral-line imaging survey of a 5 × 5 arcmin2 area around Sgr B2. We covered almost the complete spectral range from 81.7 to 113.5 GHz, with 2.2 MHz wide spectral channels or and have observed 24 lines, with 0.033 MHz wide, or channels. We discuss the distribution of around 50 lines, and present velocity-integrated emission images for 38 of the lines. In addition, we have detected around 120 more lines, mostly concentrated at the particularly spectral-line-rich Sgr B2(N) source. There are significant differences in molecular emission, pointing to both abundance and excitation differences throughout the region. Seven distinct spatial locations are identified for the emitting species, including peaks near the prominent star-forming cores of Sgr B2(N), (M) and (S) that are seen in infrared (IR)-to-radio continuum images. The other features are a ‘north ridge’ and a ‘north cloud’ to the north of the Sgr B2 N-M-S cores, a ‘south-east peak’ and a ‘west ridge’. The column density, as evident through C18O, peaks at the Sgr B2(N) and (M) cores, where strong absorption is also evident in otherwise generally bright lines such as HCO+, HCN and HNC. Most molecules trace a ridge line to the west of the Sgr B2 N-M-S cores, wrapping around the cores and extending north-east to the north cloud. This is most clearly evident in the species HC3N, CH3CN, CH3OH and OCS. They are found to be closer in distribution to the cooler dust traced by the submillimetre continuum than either the warmer dust seen in the mid-IR or to the radio continuum. The molecule CN, in contrast, is reasonably uniform over the entire region mapped, aside from strong absorption at the positions of the Sgr B2(N) and (M) cores. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF
21. Multibeam maser survey of methanol and excited OH in the Magellanic Clouds: new detections and maser abundance estimates.
- Author
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Green, J. A., Caswell, J. L., Fuller, G. A., Breen, S. L., Brooks, K., Burton, M. G., Chrysostomou, A., Cox, J., Diamond, P. J., Ellingsen, S. P., Gray, M. D., Hoare, M. G., Masheder, M. R. W., McClure-Griffiths, N., Pestalozzi, M., Phillips, C., Quinn, L., Thompson, M. A., Voronkov, M., and Walsh, A.
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STAR formation ,ASTRONOMICAL observations ,QUANTUM electronics ,DWARF galaxies ,GALAXIES - Abstract
We present the results of the first complete survey of the Large (LMC) and Small (SMC) Magellanic Clouds for 6668-MHz methanol and 6035-MHz excited-state hydroxyl masers. In addition to the survey, higher sensitivity targeted searches towards known star formation regions were conducted. The observations yielded the discovery of a fourth 6668-MHz methanol maser in the LMC, found towards the star-forming region N160a, and a second 6035-MHz excited-state hydroxyl maser, found towards N157a. We have also re-observed the three previously known 6668-MHz methanol masers and the single 6035-MHz hydroxyl maser. We failed to detect emission from either transition in the SMC. All observations were initially made using the Methanol Multibeam (MMB) survey receiver on the 64-m Parkes telescope as part of the MMB project and accurate positions have been measured with the Australia Telescope Compact Array. We compare the maser populations in the Magellanic Clouds with those of our Galaxy and discuss their implications for the relative rates of massive star formation, heavy metal abundance and the abundance of complex molecules. The LMC maser populations are demonstrated to be smaller than their Milky Way counterparts. Methanol masers are underabundant by a factor of ∼45, whilst hydroxyl and water masers are a factor of ∼10 less abundant than our Galaxy. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF
22. Embedded stellar populations towards young massive star formation regions – I. G305.2+0.2.
- Author
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Longmore, S. N., Maercker, M., Ramstedt, S., and Burton, M. G.
- Subjects
STAR clusters ,STELLAR populations ,STAR formation ,SPECTROMETERS ,INFRARED astronomy ,ATMOSPHERIC density - Abstract
We present deep, wide field J, H and Ks images taken with Infrared Imager and Spectrometer 2 (IRIS2) on the Anglo-Australian Telescope, towards the massive star formation region G305.2+0.2. Combined with 3.6, 4.5, 5.8 and 8.0 μm data from the Galactic Legacy Infrared Mid-Plane Survey Extraordinaire (GLIMPSE) survey on the Spitzer Space Telescope, we investigate the properties of the embedded stellar populations. After removing contamination from foreground stars, we separate the sources based on their infrared (IR) colour. Strong extended emission in the GLIMPSE images hampers investigation of the most embedded sources towards the known sites of massive star formation. However, we find a sizeable population of IR excess sources in the surrounding region free from these completeness effects. Investigation reveals the recent star formation activity in the region is more widespread than previously known. Stellar density plots show the embedded cluster in the region, G305.24+0.204, is offset from the dust emission. We discuss the effect of this cluster on the surrounding area and argue it may have played a role in triggering sites of star formation within the region. Finally, we investigate the distribution of IR excess sources towards the cluster, in particular their apparent lack towards the centre compared with its immediate environs. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
23. Mid-infrared source multiplicity within hot molecular cores traced by methanol masers.
- Author
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Longmore, S. N., Burton, M. G., Minier, V., and Walsh, A. J.
- Subjects
- *
ASTRONOMICAL masers , *INTERSTELLAR medium , *METHANOL , *STAR formation , *STAR clusters - Abstract
We present high resolution, mid-infrared (MIR) images towards three hot molecular cores signposted by methanol maser emission: G173.49+2.42 (S231, S233IR), G188.95+0.89 (S252, AFGL-5180) and G192.60−0.05 (S255IR). Each of the cores was targeted with Michelle on Gemini North using five filters from 7.9 to 18.5 μm. We find each contains both large regions of extended emission and multiple, luminous point sources which, from their extremely red colours ( F18.5/ F7.9≥ 3), appear to be embedded young stellar objects. The closest angular separations of the point sources in the three regions are 0.79, 1.00 and 3.33 arcsec corresponding to linear separations of 1700, 1800 and 6000 au, respectively. The methanol maser emission is found closest to the brightest MIR point source (within the assumed 1-arcsec pointing accuracy). Mass and luminosity estimates for the sources range from 3 to and from 50 to 40 000 , respectively. Assuming the MIR sources are embedded objects and the observed gas mass provides the bulk of the reservoir from which the stars formed, it is difficult to generate the observed distributions for the most massive cluster members from the gas in the cores using a standard form of the initial mass function. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
24. Millimetre continuum observations of southern massive star formation regions – II. SCUBA observations of cold cores and the dust grain emissivity index (β).
- Author
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Hill, T., Thompson, M. A., Burton, M. G., Walsh, A. J., Minier, V., Cunningham, M. R., and Pierce-Price, D.
- Subjects
METHANOL ,MASERS ,TELESCOPES ,BOLOMETERS ,GALACTIC dynamics ,STAR formation - Abstract
We report the results of a submillimetre continuum emission survey targeted towards 78 star formation regions, 72 of which are devoid of methanol maser and UC H ii regions, identified in the Swedish ESO Submillimetre Telescope (SEST)/SEST IMaging Bolometer Array (SIMBA) millimetre continuum survey of Hill et al. At least 45 per cent of the latter sources, dubbed ‘mm-only’, detected in this survey are also devoid of the mid-infrared MSX emission. The 450- and 850-μm continuum emission was mapped using the Submillimetre Common User Bolometer Array (SCUBA) instrument on the James Clerk Maxwell Telescope (JCMT). Emission is detected towards 97 per cent of the 78 sources targeted as well as towards 28 other SIMBA sources lying in the SCUBA fields. In total, we have identified 212 cores in this submillimetre survey, including 106 previously known from the SIMBA survey. Of the remaining 106 sources, 53 result from resolving a SIMBA source into multiple submillimetre components, whilst the other 53 sources are submillimetre cores, not seen in the SIMBA. Additionally, we have identified two further mm-only sources in the SIMBA images. Of the total 405 sources identified in the SIMBA survey, 255 are only seen at millimetre wavelengths. We concatenate the results from four (sub)millimetre continuum surveys of massive star formation, together with the Galactic plane map of Pierce-Price et al. in order to determine the dust grain emissivity index β for each of the sources in the SIMBA source list. We examine the value of β with respect to temperature, as well as for the source classes identified in the SIMBA survey, for variation of this index. Our results indicate that β is typically 2, which is consistent with previous determinations in the literature, but for a considerably larger sample than previous work. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
25. A CH3CN and HCO+ survey towards southern methanol masers associated with star formation.
- Author
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Purcell, C. R., Balasubramanyam, R., Burton, M. G., Walsh, A. J., Minier, V., Hunt-Cunningham, M. R., Kedziora-Chudczer, L. L., Longmore, S. N., Hill, T., Bains, I., Barnes, P. J., Busfield, A. L., Calisse, P., Crighton, N. H. M., Curran, S. J., Davis, T. M., Dempsey, J. T., Derragopian, G., Fulton, B., and Hidas, M. G.
- Subjects
STAR formation ,SUPERGIANT stars ,ASTRONOMICAL masers ,MASERS ,METHANOL - Abstract
We present the initial results of a 3-mm spectral-line survey towards 83 methanol maser-selected massive star-forming regions. Here, we report observations of the J = 5–4 and 6–5 rotational transitions of methyl cyanide (CH
3 CN) and the J = 1–0 transition of HCO+ and H13 CO+ . CH3 CN emission is detected in 58 sources (70 per cent of our sample). We estimate the temperature and column density for 37 of these using the rotational diagram (RD) method. The temperatures we derive range from 28–166 K, and are lower than previously reported temperatures, derived from higher J transitions. We find that CH3 CN is brighter and more commonly detected towards ultracompact H ii (UCH ii) regions than towards isolated maser sources. Detection of CH3 CN towards isolated maser sources strongly suggests that these objects are internally heated and that CH3 CN is excited prior to the UCH ii phase of massive star formation. HCO+ is detected towards 82 sources (99 per cent of our sample), many of which exhibit asymmetric line profiles compared to H13 CO+ . Skewed profiles are indicative of inward or outward motions, however, we find approximately equal numbers of red- and blue-skewed profiles among all classes. Column densities are derived from an analysis of the HCO+ and H13 CO+ line profiles. 80 sources have mid-infrared (mid-IR) counterparts: 68 seen in emission and 12 seen in absorption as ‘dark clouds’. Seven of the 12 dark clouds exhibit asymmetric HCO+ profiles, six of which are skewed to the blue, indicating infalling motions. CH3 CN is also common in dark clouds, where it has a 90 per cent detection rate. [ABSTRACT FROM AUTHOR]- Published
- 2006
- Full Text
- View/download PDF
26. Mopra observations of G305.2+0.2: massive star formation at different evolutionary stages?
- Author
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Walsh, A. J. and Burton, M. G.
- Subjects
- *
STAR formation , *RADIO telescopes , *MASERS , *INFRARED astronomy , *ASTRONOMY - Abstract
We have successfully used a new on-the-fly mapping technique with the Mopra radio telescope to image G305.2+0.2 in transitions of 13CO, HCO+, N2H+, CH3CN and CH3OH. All these species appear to be concentrated towards the infrared-quiet methanol maser site G305A (G305.21+0.21). We suggest that this region contains an extremely deeply embedded site of massive star formation, with comparable qualities to the low-mass Class 0 stage. The infrared-bright methanol maser site G305B (G305.21+0.20) also exhibits emission in all the mapped transitions, but always at a lower level. We suggest this is because it harbours a site of massive star formation older and more developed than G305.21+0.21. All transitions appear to be extended beyond the size of the Mopra beam (30 arcsec). 13CO and HCO+ line wings are suggestive of an outflow in the region, but the spatial resolution of these data is insufficient to identify the powering source. A narrow-lined (1.6 km s−1 compared to a typical line FWHM of 6.4 km s−1) N2H+ source (G305SW) is found 90 arcsec to the south-west of the main star-forming centres, which does not correspond to any CH3CN or CH3OH source, nor does it correspond well to 13CO or HCO+ emission in the vicinity. We suggest this may be a massive, cold, quiescent and possibly pre-stellar core. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
27. Millimetre continuum observations of southern massive star formation regions – I. SIMBA observations of cold cores.
- Author
-
Hill, T., Burton, M. G., Minier, V., Thompson, M. A., Walsh, A. J., Hunt-Cunningham, M., and Garay, G.
- Subjects
- *
MASERS , *ASTRONOMICAL masers , *INTERSTELLAR medium , *STAR formation , *MATHEMATICAL continuum , *METRIC spaces , *SUBMILLIMETER astronomy , *RADIO astronomy - Abstract
We report the results of a 1.2-mm continuum emission survey toward 131 star-forming complexes suspected of undergoing massive star formation. These regions have previously been identified as harbouring a methanol maser and/or a radio continuum source [ultracompact (UC) H ii region], the presence of which is in most instances indicative of massive star formation. The 1.2-mm emission was mapped using the SIMBA instrument on the 15-m Swedish ESO Submillimetre Telescope (SEST). Emission is detected toward all of the methanol maser and UC H ii regions targeted, as well as towards 20 others lying within the fields mapped, implying that these objects are associated with cold, deeply embedded objects. Interestingly, there are also 20 methanol maser sites and nine UC H ii regions within the fields mapped which are devoid of millimetre continuum emission. In addition to the maser and UC H ii regions detected, we have also identified 253 other sources within the SIMBA maps. All of these (253) are new sources, detected solely from their millimetre continuum emission. These ‘mm-only’ cores are devoid of the traditional indicators of massive star formation, (i.e. methanol/OH maser, UC H ii regions or IRAS point sources). At least 45 per cent of these mm-only cores are also without mid-infrared Mid-course Space Experiment ( MSX) emission. The ‘mm-only’ core may be an entirely new class of source that represents an earlier stage in the evolution of massive stars, prior to the onset of methanol maser emission. Or, they may harbour protoclusters which do not contain any high-mass stars (i.e. below the H ii region limit). In total, 404 sources are detected, representing four classes of sources which are distinguished by the presence of the different combination of associated tracer/s. Their masses, estimated assuming a dust temperature of 20 K and adopting kinematic distances, range from , with an average mass for the sample of . The H2 number density ( nH2) of the source sample ranges from , with an average of . The average radius of the sample is 0.5 pc. The visual extinction ranges from 10 to 500 mag with an average of 80 mag, which implies a high degree of embedding. The surface density (Σ) varies from 0.2 to 18.0 kg m−2 with an average of 2.8 kg m−2. Analysis of the millimetre-only sources shows that they are less massive and smaller than sources with methanol maser and/or radio continuum emission, which collectively have a mean mass of and a mean radius of 0.7 pc. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
28. Photodissociation regions and star formation in the Carina nebula.
- Author
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Rathborne, J. M., Burton, M. G., Brooks, K. J., Cohen, M., Ashley, M. C. B., and Storey, J. W. V.
- Subjects
- *
NEBULAE , *PHOTODISSOCIATION , *STAR formation - Abstract
We have obtained wide-field thermal infrared (IR) images of the Carina nebula, using the SPIREX/Abu telescope at the South Pole. Emission from polycyclic aromatic hydrocarbons (PAHs) at 3.29 μm, a tracer of photodissociation regions (PDRs), reveals many interesting well-defined clumps and diffuse regions throughout the complex. Near-IR images (1–2 μm) , along with images from the Midcourse Space Experiment (MSX) satellite (8–21 μm) have been incorporated to study the interactions between the young stars and the surrounding molecular cloud in more detail. Two new PAH emission clumps have been identified in the Keyhole nebula, and have been mapped in [sup 12]CO(2–1) and (1–0) using the Swedish–ESO Submillimetre Telescope (SEST). Analysis of their physical properties reveals that they are dense molecular clumps, externally heated with PDRs on their surfaces and supported by external pressure in a similar manner to the other clumps in the region. A previously identified externally heated globule containing IRAS 10430-5931 in the southern molecular cloud shows strong 3.29-, 8- and 21-μm emission, the spectral energy distribution (SED) revealing the location of an ultracompact (UC) H iiregion. The northern part of the nebula is complicated, with PAH emission intermixed with mid-IR dust continuum emission. Several point sources are located here, and through a two-component blackbody fit to their SEDs we have identified three possible UC H iiregions as well as a young star surrounded by a circumstellar disc. This implies that star formation in this region is ongoing and not halted by the intense radiation from the surrounding young massive stars. [ABSTRACT FROM AUTHOR]
- Published
- 2002
- Full Text
- View/download PDF
29. Tracing major structures of the inner Galaxy with 6.7-GHz methanol masers.
- Author
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Green, J. A., Caswell, J. L., McClure-Griffiths, N. M., Avison, A., Breen, S. L., Burton, M. G., Ellingsen, S. P., Fuller, G. A., Gray, M. D., Pestalozzi, M., Thompson, M. A., and Voronkov, M. A.
- Subjects
STAR formation ,METHANOL ,MILKY Way ,GALACTIC dynamics ,MASERS ,STATISTICAL correlation - Abstract
Through analysis of correlations within the longitude-velocity distribution of 6.7-GHz methanol masers, we identify density enhancements indicative of large-scale regions of enhanced star formation. In the context of the inner structure of our Galaxy these are interpreted as the starting points of the spiral arms and the interaction of the long Galactic bar with the 3-kpc arms. Signatures of a continuous 3-kpc arm structure are seen including a prominent tangent at -22° Galactic longitude. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
30. Detection of SiO emission from a massive dense cold core.
- Author
-
Lo, N., Cunningham, M., Bains, I., Burton, M. G., and Garay, G.
- Subjects
SILICON oxide ,STAR formation ,MOLECULAR clouds ,SPECTRAL energy distribution ,ASTRONOMY - Abstract
We report the detection of the SiO transition from the massive cold dense core G333.125−0.562. The core remains undetected at wavelengths shorter than 70 μm and has compact 1.2-mm dust continuum. The SiO emission is localized to the core. The observations are part of a continuing multi-molecular line survey of the giant molecular cloud G333. Other detected molecules in the core include
13 CO, C18 O, CS, , HCN, HNC, CH3 OH, , SO, HC3 N, NH3 , and some of their isotopes. In addition, from NH3 (1,1) and (2,2) inversion lines, we obtain a temperature of 13 K. From fitting to the spectral energy distribution we obtain a colour temperature of 18 K and a gas mass of . We have also detected a 22-GHz water maser in the core, together with methanol maser emission, suggesting that the core will host massive star formation. We hypothesize that the SiO emission arises from shocks associated with an outflow in the cold core. [ABSTRACT FROM AUTHOR]- Published
- 2007
- Full Text
- View/download PDF
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