Your search keyword '"Guesten, Rolf"' showing total 9 results

1. Spiral Structure and Massive Star formation in the Hub-Filament-System G326.27-0.49

Author

Mookerjea, Bhaswati, Veena, V. S., Guesten, Rolf, Wyrowski, F., and Lasrado, Akhil

Subjects

Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Hub-filament systems (HFSs) are potential sites of formation of star clusters and high mass stars. To understand the HFSs and to provide observational constraints on current theories that attempt to explainstar formation globally, we report a study of the region associated with G326.27-0.49 using infrared data of dust continuum and newly obtained observations on molecular tracers using the APEX telescope. We use the spectroscopic observations to identify velocity-coherent structures (filaments and clumps) and study their properties at a resolution of 0.4 pc. The region contains two main velocity components: first component shows four filaments between -63 and -55 km/s forming a spiral structure converging in a hub, the second filamentary component at -72 km/s harbors a massive young stellar object and possibly interacts with the hub. The clumps harbouring the three main YSOs in the region are massive (187-535 Msun), have luminosities consistent with B-type stars, have central densities of ~10^6 cm^-3 and drive large outflows. Majority of the velocity-coherent clumps in the region show virial parameters between 2-7, which considering the detection of protostars implies collapse to be gradual. We conclude that the region consists of a network of filaments through which mass accretes (~10^-4 Msun/yr) onto the hub. The hub and some of the ends of filaments appear to be undergoing collapse to form new stars. This study identifies a target region for future high resolution observations that could probe the link between the core and filament evolution., Accepted for publication in MNRAS

Published

2023

2. Molecular Bullets in A High-mass Protostar

Author

Cheng, Yu, Qiu, Keping, Zhang, Qizhou, Wyrowski, Friedrich, Menten, Karl, and Guesten, Rolf

Subjects

Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, Astrophysics - Astrophysics of Galaxies

Abstract

We present Submillimeter Array (SMA) observations in the CO J=3-2, SiO J=5-4 and 8-7, and SO 9_8-8_7 lines, as well as Atacama Pathfinder EXperiment (APEX) observations in the CO J=6-5 line, of an extremely high-velocity and jet-like outflow in high-mass star-forming region HH 80--81. The outflow is known to contain two prominent molecular bullets, namely B1 and B2, discovered from our previous SMA CO J=2-1 observations. While B1 is detected in all the CO, SiO, and SO lines, B2 is only detected in CO lines. The CO 3-2/2-1 line ratio in B1 is clearly greater than that in B2. We perform a large velocity gradient analysis of the CO lines and derive a temperature of 70--210 K for B1 and 20--50 K for B2. Taking into account the differences in the velocity, distance from the central source, excitation conditions, and chemistry between the two bullets, we suggest that the bullets are better explained by direct ejections from the innermost vicinity of the central high-mass protostar, and that we are more likely observing the molecular component of a primary wind rather than entrained or swept-up material from the ambient cloud. These findings further support our previous suggestions that the molecular bullets indicate an episodic, disk-mediated accretion in the high-mass star formation process., Accepted for publication in the ApJ

Published

2019

3. CS multitransitional study of density distribution in star-forming regions. 2: The S140 region

Author

Zhou, Shudong, Butner, Harold M, Evans, Neal J., II, Guesten, Rolf, Kutner, Marc L, and Mundy, Lee G

Subjects

Astrophysics

Abstract

The S140 molecular cloud was observed in five transitions of CS with resolutions of 11 to 45 arcsec. The data were analyzed with both the LVG and microturbulent models of radiative transfer to derive the density structure. It was found that the CS emission comes from three components of gas: a spherical component centered on the infrared cluster, an arc component along the ionization front between the S140 H II region and the dense molecular cloud core, and a high-velocity component from the dense part of a molecular outflow. The spherical component contributes most to the CS emission and was analyzed in more detail than the other components. Using a temperature distribution derived from an analysis of the dust emission from S140, we fit a power-law density distribution of n(r) = n(sub i)(r/r(sub i))(exp -alpha) to the spherical component. The best fit was for n(sub i) = 1.4 x 10(exp 6) (density at r(sub i) = 0.026 pc) and alpha = 0.8. The density (n(sub i)) was found to be greater than or equal to the density required to account for the dust emission, depending on the dust opacity laws adopted. The presence of optical emission (Dinerstein, Lester, & Rank 1979) suggests a clumpy structure for the dense gas. Considerations of the virial mass and the lowest amount of column density required to produce dust emission put the volume filling factor (f(sub nu)) of the dense gas at approximately 0.14-0.5. We compared S140 with other regions of star formation where the density structure has been derived from excitation analysis. Source-source variations in density gradients and clumpiness clearly exist, ranging from alpha = 2 and f(sub nu) approximately 1 in B335 to alpha approximately 0, f(sub nu) approximately 0.1 in M17. There is a tendency for more massive star-forming regions to have a flatter density distribution, a more clumpy structure, and a large number of young stars. The implications of this tendency are discussed.

Published

1994

4. GREAT: The German Receiver for Astronomy at Terahertz Frequencies.

Author

Guesten, Rolf, Camara, Ivan, Hartogh, Paul, Huebers, Heinz-Wilhelm, Graf, Urs U., Jacobs, Karl, Kasemann, Christoph, Roeser, Hans-Peter, Schieder, Rudolf T., Schnieder, Gert, Sievertz, Oliver, Stutzki, Juergen, Villanueva, Geronimo, Wagner, Armin, van der Wal, Peter, and Wunsch, Achim

Published

2003

5. Local oscillator system for the heterodyne instrument for FIRST (HIFI).

Author

Pearson, John C., Guesten, Rolf, Klein, Thomas, and Whyborn, Nick D.

Published

2000

6. GREAT: the first-generation German heterodyne receiver for SOFIA.

Author

Guesten, Rolf, Hartogh, Paul, Huebers, Heinz-Wilhelm, Graf, Urs U., Jacobs, K., Roeser, Hans-Peter, Schaefer, Frank, Schieder, Rudolf T., Stark, Ronald, Stutzki, Juergen, Van der Wal, Peter, and Wunsch, Achim

Published

2000

7. CHAMP: the Carbon Heterodyne Array of the MPIfR.

Author

Guesten, Rolf, Ediss, Geoffrey A., Gueth, Frederic, Gundlach, K. H., Hauschildt, H., Kasemann, Christoph, Klein, Thomas, Kooi, Jacob W., Korn, A., Kramer, I., LeDuc, Henry G., Mattes, H., Meyer, K., Perchtold, E., Pilz, M., Sachert, R., Scherschel, M., Schilke, P., Schneider, G., and Schraml, J.

Published

1998

8. 0.8mm extragalactic surveys of nearby galaxies.

Author

Villicaña-Pedraza, Ilhuiyolitzin, Martín, Sergio, Martín-Pintado, Jesus, Requena-Torres, Miguel, Guesten, Rolf, Armijos, Jairo, Pérez-Beaupuits, Juan Pablo, Klein, Bernd, Heyminck, Stefan, Díaz, Angeles I., Binette, Luc, Carreto-Parra, Francisco, Aladro, Rebeca, Gil de Paz, Armando, Knapen, Johan H., and Lee, Janice C.

Abstract

We present the first submillimetric line survey of extragalactic sources carried out by APEX. The surveys cover the 0.8 mm atmospheric window from 270 to 370GHz toward NGC253, NGC4945 and Arp220. We found in NGC 253, 150 transitions of 26 molecules. For NGC 4945, 136 transitions of 24 molecules, and 64 transitions of 17 molecules for Arp 220. Column densities and rotation temperatures have been determinate using the Local Thermodinamical Equilibrium(LTE) line profile simulation and fitting in the MADCUBA IJ software. The differences found in ratios between the Galactic Center and the starburst galaxies NGC 4945 and NGC 253 suggest that the gas is less processed in the latter than in the Galactic Center. The high 18O/17O ratios in the galaxies NGC 4945 and NGC 253 suggest also material less processed in the nuclei of these galaxies than in the Galactic Center. This is consistent with the claim that 17O is a more representative primary product than 18O in stellar nucleosynthesis (Wilson and Rood 1994); Also, we did a Multitransitions study of H3O+ at 307GHz, 364GHz, 388GHz and 396GHz. From our non-LTE analysis of H3O+ in NGC253 with RADEX we found that the collisional excitation can not explain the observed intensity of the ortho 396 GHz line. Excitation by radiation from the dust in the Far-IR can roughly explain the observations if the H2 densities are relatively low. From the derived H3O+ column densities we conclude that the chemistry of this molecule is dominated by ionization produce by the starburst in NGC253 (UV radiation from the O stars) and Arp 220 (cosmic rays from the supernovae) and likely from the AGN in NGC4549 (X-rays ); Finally, we report, for the first time, the tentative detection of the molecular ion HCNH+ (precursor of HCN and HNC) toward a galaxy, NGC4945, abundance explain the claimed enhancement of HCN abundance in the AGN, due to the enhancement of the ionization rate by X-rays. The abundance is much larger than the Galactic center of the Milky Way. [ABSTRACT FROM PUBLISHER]

Published

2016

9. A HOT MOLECULAR OUTFLOW DRIVEN BY THE IONIZED JET ASSOCIATED WITH IRAS 16562-3959

Author

Guesten, Rolf [Max-Planck-Institut fuer Radioastronomie, Auf dem Huegel 69, 53121 Bonn (Germany)]

Published

2011