Your search keyword '"Tatematsu, Ken’ichi"' showing total 118 results

1. ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Nested Morphological and Kinematic Structures of Outflows Revealed in SiO and CO Emission.

Author

Liu, Chun-Fan, Shang, Hsien, Johnstone, Doug, Ai, Tsung-Han, Lee, Tsz Ming, Krasnopolsky, Ruben, Hirano, Naomi, Dutta, Somnath, Hsu, Shih-Ying, López-Vázquez, Jesús Alejandro, Liu, Sheng-Yuan, Liu, Tie, Tatematsu, Ken'ichi, Zhang, Qizhou, Rawlings, Mark G., Eden, David, Ren, Zhiyuan, Sanhueza, Patricio, Kwon, Woojin, and Lee, Chang Won

Subjects

STARS, INTERSTELLAR medium, STELLAR winds, RADIO astronomy, MAGNETIC structure

Abstract

The Atacama Large Millimeter/submillimeter Array Survey of Orion Planck Galactic Cold Clumps (ALMASOP) reveals complex nested morphological and kinematic features of molecular outflows through the CO (J = 2−1) and SiO (J = 5−4) emission. We characterize the jet and outflow kinematics of the ALMASOP sample in four representative sources (HOPS 10, 315, 358, and G203.21-11.20W2) through channel maps and position–velocity diagrams (PVDs) parallel and transverse to the outflow axes. The combined CO and SiO emission exhibits the coexistence of the conventional extremely high-velocity jets and shell-like low-velocity cavity walls and new features. More complex, nested bubble-like and filamentary structures in the images and channel maps, triangle-shaped regions near the base of the parallel PVDs, and regions composed of rhombus/oval shapes in the transverse PVDs are also evident. Such features find natural explanations within the bubble structure of the unified model of jet, wind, and ambient medium. The reverse shock cavity is revealed on the PVD base regions, and other features naturally arise within the dynamic postshock region of magnetic interaction. The finer nested shells observed within the compressed wind region reveal previously unnoticed shocked emission between the jet and the conventional large cavity walls. These pseudopulse-produced filamentary features connect to the jetlike knotty blobs, creating an impression of episodicity in mass ejection. SiO emission is enhanced downstream of the reverse shock boundary, with jetlike excitation conditions. Combined, these observed features reveal the extended structures induced by the magnetic interplay between a jet-bearing magnetized wide-angle wind and its ambient magnetized surrounding medium. [ABSTRACT FROM AUTHOR]

Published

2025

2. A Survey of Sulfur-bearing Molecular Lines toward the Dense Cores in 11 Massive Protoclusters.

Author

Tang, Mengyao, Qin, Sheng-Li, Liu, Tie, Zapata, Luis A., Liu, Xunchuan, Peng, Yaping, Xu, Fengwei, Zhang, Chao, and Tatematsu, Ken'ichi

Published

2024

3. A study of Galactic Plane Planck Galactic cold clumps observed by SCOPE and the JCMT Plane Survey.

Author

Eden, D J, Liu, Tie, Moore, T J T, Di Francesco, J, Fuller, G, Kim, Kee-Tae, Li, Di, Liu, S -Y, Plume, R, Tatematsu, Ken'ichi, Thompson, M A, Wu, Y, Bronfman, L, Butner, H M, Currie, M J, Garay, G, Goldsmith, P F, Hirano, N, Johnstone, D, and Juvela, M

Subjects

STAR formation

Abstract

We have investigated the physical properties of Planck Galactic Cold Clumps (PGCCs) located in the Galactic Plane, using the JCMT Plane Survey (JPS) and the SCUBA-2 Continuum Observations of Pre-protostellar Evolution (SCOPE) survey. By utilizing a suite of molecular-line surveys, velocities, and distances were assigned to the compact sources within the PGCCs, placing them in a Galactic context. The properties of these compact sources show no large-scale variations with Galactic environment. Investigating the star-forming content of the sample, we find that the luminosity-to-mass ratio (L / M) is an order of magnitude lower than in other Galactic studies, indicating that these objects are hosting lower levels of star formation. Finally, by comparing ATLASGAL sources that are associated or are not associated with PGCCs, we find that those associated with PGCCs are typically colder, denser, and have a lower L / M ratio, hinting that PGCCs are a distinct population of Galactic Plane sources. [ABSTRACT FROM AUTHOR]

Published

2024

4. The ALMA Survey of 70 μ m Dark High-mass Clumps in Early Stages (ASHES). XI. Statistical Study of Early Fragmentation.

Author

Morii, Kaho, Sanhueza, Patricio, Zhang, Qizhou, Nakamura, Fumitaka, Li, Shanghuo, Sabatini, Giovanni, Olguin, Fernando A., Beuther, Henrik, Tafoya, Daniel, Izumi, Natsuko, Tatematsu, Ken'ichi, and Sakai, Takeshi

Subjects

HIGH mass stars, STAR formation

Abstract

Fragmentation during the early stages of high-mass star formation is crucial for understanding the formation of high-mass clusters. We investigated fragmentation within 39 high-mass star-forming clumps as part of the Atacama Large Millimeter/submillimeter Array Survey of 70 μ m Dark High-mass Clumps in Early Stages (ASHES) survey. Considering projection effects, we have estimated core separations for 839 cores identified from the continuum emission and found mean values between 0.08 and 0.32 pc within each clump. We find compatibility of the observed core separations and masses with the thermal Jeans length and mass, respectively. We also present subclump structures revealed by the 7 m array continuum emission. Comparison of the Jeans parameters using clump and subclump densities with the separation and masses of gravitationally bound cores suggests that they can be explained by clump fragmentation, implying the simultaneous formation of subclumps and cores within rather than a step-by-step hierarchical fragmentation. The number of cores in each clump positively correlates with the clump surface density and the number expected from the thermal Jeans fragmentation. We also find that the higher the fraction of protostellar cores, the larger the dynamic range of the core mass, implying that the cores are growing in mass as the clump evolves. The ASHES sample exhibits various fragmentation patterns: aligned, scattered, clustered, and subclustered. Using the Q -parameter, which can help distinguish between centrally condensed and subclustered spatial core distributions, we finally find that in the early evolutionary stages of high-mass star formation, cores tend to follow a subclustered distribution. [ABSTRACT FROM AUTHOR]

Published

2024

5. ALMA High-resolution Spectral Survey of Thioformaldehyde (H2CS) toward Massive Protoclusters.

Author

Chen, Li, Qin, Sheng-Li, Liu, Tie, Liu, Hong-Li, Liu, Sheng-Yuan, Liu, Meizhu, Shi, Hongqiong, Li, Chuanshou, Tang, Mengyao, Zhang, Tianwei, Tatematsu, Ken'ichi, Li, Xiaohu, Xu, Fengwei, Wu, Yuefang, and Yang, Dongting

Abstract

Investigating the temperature and density structures of gas in massive protoclusters is crucial for understanding the chemical properties therein. In this study, we present observations of the continuum and thioformaldehyde (H2CS) lines at 345 GHz of 11 massive protoclusters using the Atacama Large Millimeter/submillimeter Array telescope. High spatial resolution and sensitivity observations have detected 145 continuum cores from the 11 sources. H2CS line transitions are observed in 72 out of 145 cores, including line-rich cores, warm cores, and cold cores. The H2 column densities of the 72 cores are estimated from the continuum emission, which are larger than the density threshold value for star formation, suggesting that H2CS can be widely distributed in star-forming cores with different physical environments. The rotation temperature and column density of H2CS are derived using the XCLASS software. The results show that the H2CS abundances increase as temperature rises and higher gas temperatures are usually associated with higher H2CS column densities. The abundances of H2CS are positively correlated with its column density, suggesting that the H2CS abundances are enhanced from cold cores, warm cores, and line-rich cores in star-forming regions. [ABSTRACT FROM AUTHOR]

Published

2024

6. ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): A Forming Quadruple System with Continuum "Ribbons" and Intricate Outflows.

Author

Luo, Qiu-yi, Liu, Tie, Lee, Aaron T., Offner, Stella S. R., di Francesco, James, Johnstone, Doug, Juvela, Mika, Goldsmith, Paul F., Qin, Sheng-Li, Mai, Xiaofeng, Liu, Xun-chuan, Sanhueza, Patricio, Xu, Feng-Wei, Tatematsu, Ken'ichi, Dutta, Somnath, Chen, Huei-Ru Vivien, Li, Shanghuo, Yang, Aiyuan, Liu, Sheng-Yuan, and Lee, Chin-Fei

Published

2023

7. Evidence of high-mass star formation through multiscale mass accretion in hub-filament-system clouds.

Author

Liu, Hong-Li, Tej, Anandmayee, Liu, Tie, Sanhueza, Patricio, Qin, Sheng-Li, He, Jinhua, Goldsmith, Paul F, Garay, Guido, Pan, Sirong, Morii, Kaho, Li, Shanghuo, Stutz, Amelia, Tatematsu, Ken'ichi, Xu, Feng-Wei, Bronfman, Leonardo, Saha, Anindya, Issac, Namitha, Baug, Tapas, Toth, L Viktor, and Dewangan, Lokesh

Subjects

HIGH mass stars, STAR clusters, STAR formation, SUPERGIANT stars, STATISTICAL sampling, ACCRETION (Astrophysics), FIBERS

Abstract

We present a statistical study of a sample of 17 hub-filament-system (HFS) clouds of high-mass star formation using high-angular resolution (∼1–2 arcsec) ALMA 1.3 and 3 mm continuum data. The sample includes eight infrared (IR)-dark and nine IR-bright types, which correspond to an evolutionary sequence from the IR-dark to IR-bright stage. The central massive clumps and their associated most massive cores are observed to follow a trend of increasing mass (M) and mass surface density (Σ) with evolution from the IR-dark to IR-bright stage. In addition, a mass-segregated cluster of young stellar objects (YSOs) are revealed in both IR-dark and IR-bright HFSs with massive YSOs located in the hub and the population of low-mass YSOs distributed over larger areas. Moreover, outflow feedback in all HFSs are found to escape preferentially through the inter-filamentary diffuse cavities, suggesting that outflows would render a limited effect on the disruption of the HFSs and ongoing high-mass star formation therein. From the above observations, we suggest that high-mass star formation in the HFSs can be described by a multiscale mass accretion/transfer scenario, from hub-composing filaments through clumps down to cores, which can naturally lead to a mass-segregated cluster of stars. [ABSTRACT FROM AUTHOR]

Published

2023

8. Development of seven-beam optics using dielectric lenses for a new 72–116 GHz receiver in the Nobeyama 45 m telescope.

Author

Yamasaki, Yasumasa, Hasegawa, Yutaka, Yoneyama, Sho, Kawashita, Sana, Chinen, Tsubasa, Masui, Sho, Nosohara, Chiaki, Sun, Heyang, Dakie, Shuto, Kameyama, Akira, Fujitomo, Ikko, Nishikawa, Yuma, Ogawa, Hideo, Tatematsu, Ken'ichi, Nishimura, Atsushi, Miyazawa, Chieko, Takahashi, Toshikazu, Maekawa, Jun, Gonzalez, Alvaro, and Kojima, Takafumi

Subjects

OPTICS, DIELECTRICS, ANTENNA feeds, RADIO frequency, REFRACTIVE index, WAVEFRONTS (Optics), TELESCOPES

Abstract

We developed a new seven-beam heterodyne receiver "7BEE" in the 72–116 GHz band for the Nobeyama 45 m telescope to investigate the early stage of star formation by deriving the deuterium fraction of dense cores. The optics for the receiver employs wideband corrugated horns covering the 72–116 GHz band and dielectric lenses to couple the incoming radiation from the antenna on to the feeds. One of the important aspects in the lens design is the anti-reflection (AR) structure to mitigate the reflections on the lens surfaces. Triangular grooves, which gradually change the effective refractive index from air to dielectric, were adopted as a basic AR design since the return loss can be in the order of 20 dB or better. The main goal of this study is to compare the radio frequency (RF) characteristics of the lenses with different patterns and sizes of AR grooving structures. We confirmed that concentric grooves degraded beam symmetry, cross-polarization characteristics, and aperture efficiency due to the birefringence of the grooves, which gave rise to wavefront distortions. Straight grooves of two different gap widths, 1.2 mm and 1.7 mm, were compared and showed similar good performance in terms of beam patterns and noise contribution. However, the latter showed a few percent higher aperture efficiency. Therefore, the straight grooves with 1.7 mm gap width were adopted as the AR structure of our lens. [ABSTRACT FROM AUTHOR]

Published

2023

9. ATOMS: ALMA Three-millimeter Observations of Massive Star-forming regions – XV. Steady accretion from global collapse to core feeding in massive hub-filament system SDC335.

Author

Xu, Feng-Wei, Wang, Ke, Liu, Tie, Goldsmith, Paul F, Zhang, Qizhou, Juvela, Mika, Liu, Hong-Li, Qin, Sheng-Li, Li, Guang-Xing, Tej, Anandmayee, Garay, Guido, Bronfman, Leonardo, Li, Shanghuo, Wu, Yue-Fang, Gómez, Gilberto C, Vázquez-Semadeni, Enrique, Tatematsu, Ken'ichi, Ren, Zhiyuan, Zhang, Yong, and Toth, L Viktor

Subjects

ATOMS, STAR formation, KINEMATICS, FIBERS

Abstract

We present ALMA Band-3/7 observations towards 'the Heart' of a massive hub-filament system (HFS) SDC335, to investigate its fragmentation and accretion. At a resolution of ∼0.03 pc, 3 mm continuum emission resolves two massive dense cores MM1 and MM2, with |$383(^{\scriptscriptstyle +234}_{\scriptscriptstyle -120})$|   M ⊙ (10–24 % mass of 'the Heart') and |$74(^{\scriptscriptstyle +47}_{\scriptscriptstyle -24})$|   M ⊙, respectively. With a resolution down to 0.01 pc, 0.87 mm continuum emission shows MM1 further fragments into six condensations and multi-transition lines of H2CS provide temperature estimation. The relation between separation and mass of condensations at a scale of 0.01 pc favors turbulent Jeans fragmentation where the turbulence seems to be scale-free rather than scale-dependent. We use the H13CO+  J  = 1 − 0 emission line to resolve the complex gas motion inside 'the Heart' in position-position-velocity space. We identify four major gas streams connected to large-scale filaments, inheriting the anti-clockwise spiral pattern. Along these streams, gas feeds the central massive core MM1. Assuming an inclination angle of 45(± 15)° and a H13CO+ abundance of 5(± 3) × 10−11, the total mass infall rate is estimated to be 2.40(± 0.78) × 10−3  M ⊙ yr−1, numerically consistent with the accretion rates derived from the clump-scale spherical infall model and the core-scale outflows. The consistency suggests a continuous, near steady-state, and efficient accretion from global collapse, therefore ensuring core feeding. Our comprehensive study of SDC335 showcases the detailed gas kinematics in a prototypical massive infalling clump, and calls for further systematic and statistical studies in a large sample. [ABSTRACT FROM AUTHOR]

Published

2023

10. First detection of radio recombination lines of ions heavier than helium.

Author

Liu, Xunchuan, Liu, Tie, Shen, Zhiqiang, Goldsmith, Paul F., Evans II, Neal J., Qin, Sheng-Li, Luo, Qiuyi, Cheng, Yu, Liu, Sheng-Yuan, Zhu, Fengyao, Tatematsu, Ken'ichi, Liu, Meizhu, Yang, Dongting, Li, Chuanshou, Chen, Li, Li, Juan, Lu, Xing, Gu, Qilao, Zhao, Rongbing, and Li, Bin

Subjects

RADIO lines, ION recombination, HEAVY ions, LOCAL thermodynamic equilibrium, HELIUM, HOLLIDAY junctions

Abstract

We report the first detection of radio recombination lines (RRLs) of ions heavier than helium. In a highly sensitive multi-band (12–50 GHz) line survey toward Orion KL with the TianMa 65-m Radio Telescope (TMRT), we successfully detected more than fifteen unblended α lines of RRLs of singly ionized species (XII) recombined from XIII. The Ka-band (26–35 GHz) spectrum also shows tentative signals of β lines of ions. The detected lines can be successfully crossmatched with the rest frequencies of RRLs of C II and/or O II. This finding greatly expands the scope of our understanding of ion RRLs, since prior to this work, only two blended lines (105α and 121α) of He II had been reported. Our detected lines can be fitted simultaneously under assumption of local thermodynamic equilibrium (LTE). An abundance of C III and O III of 8.8×10−4 was obtained, avoiding the complexities of optical and infrared observations and the blending of RRLs of atoms. It is consistent with but approaches the upper bound of the value (10−4–10−3) estimated from optical and infrared observations. The effects of dielectronic recombination may contribute to enhancing the level populations even at large n. We expect future observations using radio interferometers could break the degeneracy between C and O, while also helping to reveal the ionization structure and dynamical evolution of various ionized regions. [ABSTRACT FROM AUTHOR]

Published

2023

11. ATOMS: ALMA three-millimeter observations of massive star-forming regions – XIII. Ongoing triggered star formation within clump-fed scenario found in the massive (∼1500 M⨀) clump.

Author

Zhang, Siju, Wang, Ke, Liu, Tie, Zavagno, Annie, Juvela, Mika, Liu, Hongli, Tej, Anandmayee, Stutz, Amelia M, Li, Shanghuo, Bronfman, Leonardo, Zhang, Qizhou, Goldsmith, Paul F, Lee, Chang Won, Vázquez-Semadeni, Enrique, Tatematsu, Ken'ichi, Jiao, Wenyu, Xu, Fengwei, Wang, Chao, and Zhou, Jian-Wen

Subjects

STAR formation, SUPERGIANT stars, IONIZED gases, IONIZING radiation, GAS flow, PROTOSTARS

Abstract

Whether ionization feedback triggers the formation of massive stars is highly debated. Using ALMA 3-mm observations with a spatial resolution of ∼0.05 pc and a mass sensitivity of 1.1  |$\rm M_\odot$|  per beam at 20 K, we investigate the star formation and gas flow structures within the ionizing feedback-driven structure, a clump-scale massive (≳ 1500  |$\rm M_\odot$|⁠) bright-rimmed cloud (BRC) associated with IRAS 18290–0924. This BRC is bound only if external compression from ionized gas is considered. A small-scale (≲ 1 pc) age sequence along the direction of ionizing radiation is revealed for the embedded cores and protostars, which suggests triggered star formation via radiation-driven implosion (RDI). Furthermore, filamentary gas structures converge towards the cores located in the BRC's centre, indicating that these filaments are fueling mass towards cores. The local core-scale mass infall rate derived from H13CO+  J  = 1 − 0 blue profile is of the same order of magnitude as the filamentary mass inflow rate, approximately 1  |$\rm M_\odot$|  kyr−1. A photodissociation region (PDR) covering the irradiated clump surface is detected in several molecules, such as CCH, HCO+, and CS whereas the spatial distribution stratification of these molecules is indistinct. CCH spectra of the PDR possibly indicate a photoevaporation flow leaving the clump surface with a projected velocity of ∼2 km s−1. Our new observations show that RDI accompanied by a clump-fed process is operating in this massive BRC. Whether this combined process works in other massive BRCs is worth exploring with dedicated surveys. [ABSTRACT FROM AUTHOR]

Published

2023

12. Sequential star formation in the filamentary structures of the Planck Galactic cold clump G181.84+0.31

Author

KUNO, Nario, Yuan, Lixia, Zhu, Ming, Liu, Tie, Yuan, Jinghua, Wu, Yuefang, Kim, Kee-Tae, Wang, Ke, Zhou, Chenlin, and Tatematsu, Ken’ichi

Abstract

We present a multiwavelength study of the Planck Galactic cold clump G181.84+0.31, which is located at the northern end of the extended filamentary structure S242. We have extracted nine compact dense cores from the SCUBA-2 850-μm map, and we have identified 18 young stellar objects (YSOs; four Class I and 14 Class II) based on their Spitzer, Wide-field Infrared Survey Explorer(WISE) and Two-Micron All-Sky Survey (2MASS) near- and mid-infrared colours. The dense cores and YSOs are mainly distributed along the filamentary structures of G181.84 and are well traced by HCO+(1–0) and N2H+(1–0) spectral-line emission. We find signatures of sequential star formation activities in G181.84: dense cores and YSOs located in the northern and southern substructures are younger than those in the central region. We also detect global velocity gradients of about 0.8 ± 0.05 and 1.0 ± 0.05 km s−1 pc−1 along the northern and southern substructures, respectively, and local velocity gradients of 1.2 ± 0.1 km s−1 pc−1 in the central substructure. These results might be due to the fact that the global collapse of the extended filamentary structure S242 is driven by an edge effect, for which the filament edges collapse first and then further trigger star formation activities inward. We identify three substructures in G181.84 and estimate their critical masses per unit length, which are ∼101 ± 15, 56 ± 8 and 28 ± 4 M⊙ pc−1, respectively. These values are all lower than the observed values (∼200 M⊙ pc−1), suggesting that these substructures are gravitationally unstable.

Published

2019

13. ATOMS: ALMA Three-millimeter Observations of Massive Star-forming regions – X. Chemical differentiation among the massive cores in G9.62+0.19.

Author

Peng, Yaping, Liu, Tie, Qin, Sheng-Li, Baug, Tapas, Liu, Hong-Li, Wang, Ke, Garay, Guido, Zhang, Chao, Chen, Long-Fei, Lee, Chang Won, Juvela, Mika, Li, Dalei, Tatematsu, Ken'ichi, Liu, Xun-Chuan, Lee, Jeong-Eun, Luo, Gan, Dewangan, Lokesh, Wu, Yue-Fang, Zhang, Li, and Bronfman, Leonardo

Subjects

ASTROCHEMISTRY, SPECTRAL lines, SUPERGIANT stars, COLD regions, STELLAR evolution, CHEMICAL structure

Abstract

Investigating the physical and chemical structure of massive star-forming regions is critical for understanding the formation and early evolution of massive stars. We performed a detailed line survey toward six dense cores, named MM1, MM4, MM6, MM7, MM8, and MM11, in the G9.62+0.19 star-forming region resolved in Atacama Large Millimeter/submillimeter Array (ALMA) band 3 observations. Toward these cores, about 172 transitions have been identified and attributed to 16 species, including organic oxygen-, nitrogen-, and sulphur-bearing molecules and their isotopologues. Four dense cores, MM7, MM8, MM4, and MM11, are line-rich sources. Modelling of these spectral lines reveals that the rotational temperature lies in the range 72–115, 100–163, 102–204, and 84–123 K for MM7, MM8, MM4, and MM11, respectively. The molecular column densities are 1.6 × 1015–9.2 × 1017 cm−2 toward the four cores. The cores MM8 and MM4 show a chemical difference between oxygen- and nitrogen-bearing species, i.e. MM4 is rich in oxygen-bearing molecules, while nitrogen-bearing molecules, especially vibrationally excited HC3N lines, are mainly observed in MM8. The distinct initial temperatures at the accretion phase may lead to this N/O differentiation. Through analysing column densities and spatial distributions of O-bearing complex organic molecules (COMs), we found that C2H5OH and CH3OCH3 might have a common precursor, CH3OH. CH3OCHO and CH3OCH3 are likely chemically linked. In addition, the observed variation in HC3N and HC5N emission may indicate their different formation mechanisms in hot and cold regions. [ABSTRACT FROM AUTHOR]

Published

2022

14. ATOMS: ALMA Three-millimeter Observations of Massive Star-forming regions – IX. A pilot study towards IRDC G034.43+00.24 on multi-scale structures and gas kinematics.

Author

Liu, Hong-Li, Tej, Anandmayee, Liu, Tie, Goldsmith, Paul F, Stutz, Amelia, Juvela, Mika, Qin, Sheng-Li, Xu, Feng-Wei, Bronfman, Leonardo, Evans, Neal J, Saha, Anindya, Issac, Namitha, Tatematsu, Ken'ichi, Wang, Ke, Li, Shanghuo, Zhang, Siju, Baug, Tapas, Dewangan, Lokesh, Wu, Yue-Fang, and Zhang, Yong

Subjects

KINEMATICS, GAS flow, PILOT projects, ATOMS, GASES

Abstract

We present a comprehensive study of the gas kinematics associated with density structures at different spatial scales in the filamentary infrared dark cloud, G034.43+00.24 (G34). This study makes use of the H13CO+ (1–0) molecular line data from the ALMA Three-millimeter Observations of Massive Star-forming regions (ATOMS) survey, which has spatial and velocity resolution of ∼0.04 pc and 0.2 km s−1, respectively. Several tens of dendrogram structures have been extracted in the position-position-velocity space of H13CO+, which include 21 small-scale leaves and 20 larger-scale branches. Overall, their gas motions are supersonic but they exhibit the interesting behaviour where leaves tend to be less dynamically supersonic than the branches. For the larger scale, branch structures, the observed velocity–size relation (i.e. velocity variation/dispersion versus size) are seen to follow the Larson scaling exponent while the smaller-scale, leaf structures show a systematic deviation and display a steeper slope. We argue that the origin of the observed kinematics of the branch structures is likely to be a combination of turbulence and gravity-driven ordered gas flows. In comparison, gravity-driven chaotic gas motion is likely at the level of small-scale leaf structures. The results presented in our previous paper and this current follow-up study suggest that the main driving mechanism for mass accretion/inflow observed in G34 varies at different spatial scales. We therefore conclude that a scale-dependent combined effect of turbulence and gravity is essential to explain the star-formation processes in G34. [ABSTRACT FROM AUTHOR]

Published

2022

15. ATOMS: ALMA Three-millimeter Observations of Massive Star-forming regions–VI. On the formation of the 'L' type filament in G286.21+0.17.

Author

Zhou, Jian-Wen, Liu, Tie, Li, Jin-Zeng, Liu, Hong-Li, Wang, Ke, Xu, Feng-Wei, Kim, Kee-Tae, Lee, Chang Won, Dewangan, Lokesh, Tatematsu, Ken'ichi, Li, Shanghuo, Liu, Xun-Chuan, Tang, Mengyao, Ren, Zhiyuan, Zhang, Guo-Yin, Zhang, Chao, Liu, Rong, Luo, Qiu-Yi, and Ristorcelli, Isabelle

Subjects

FIBERS, STAR formation, ATOMS, STELLAR winds, KINEMATICS

Abstract

Filaments play an important role in star formation, but the formation process of filaments themselves is still unclear. The high-mass star-forming clump G286.21+0.17 (G286 for short) that contains an 'L' type filament was thought to undergo global collapse. Our high-resolution ALMA band 3 observations resolve the gas kinematics of G286 and reveal two sub-clumps with very different velocities inside it. We find that the 'blue profile' (an indicator of gas infall) of HCO+ lines in single dish observations of G286 is actually caused by gas emission from the two sub-clumps rather than gas infall. We advise great caution in interpreting gas kinematics (e.g. infall) from line profiles towards distant massive clumps in single dish observations. Energetic outflows are identified in G286 but the outflows are not strong enough to drive expansion of the two sub-clumps. The two parts of the 'L' type filament ('NW–SE' and 'NE–SW' filaments) show prominent velocity gradients perpendicular to their major axes, indicating that they are likely formed due to large-scale compression flows. We argue that the large-scale compression flows could be induced by the expansion of nearby giant H  ii regions. The 'NW–SE' and 'NE–SW' filaments seem to be in collision, and a large amount of gas has been accumulated in the junction region where the most massive core G286c1 forms. [ABSTRACT FROM AUTHOR]

Published

2021

16. An ALMA study of outflow parameters of protoclusters: outflow feedback to maintain the turbulence.

Author

Baug, T, Wang, Ke, Liu, Tie, Wu, Yue-Fang, Li, Di, Zhang, Qizhou, Tang, Mengyao, Goldsmith, Paul F, Liu, Hong-Li, Tej, Anandmayee, Bronfman, Leonardo, Kim, Kee-Tae, Li, Shanghuo, Lee, Chang Won, Tatematsu, Ken'ichi, Hirota, Tomoya, and Toth, L Viktor

Subjects

TURBULENCE, TERMINAL velocity, STAR formation, RADIO lines, PSYCHOLOGICAL feedback

Abstract

With the aim of understanding the role of outflows in star formation, we performed a statistical study of the physical parameters of outflows in 11 massive protoclusters associated with ultracompact H  ii regions. A total of 106 outflow lobes are identified in these protoclusters using the ALMA CO (3–2), HCN (4–3), and HCO+ (4–3) line observations. Although the position angles of outflow lobes do not differ in these three tracers, HCN and HCO+ tend to detect lower terminal velocity of the identified outflows compared to CO. The majority of the outflows in our targets are young with typical dynamical time-scales of 102–104 yr, and are mostly composed of low-mass outflows along with at least one high-mass outflow in each target. An anticorrelation of outflow rate with dynamical time-scale indicates that the outflow rate possibly decreases with time. Also, a rising trend of dynamical time-scale with the mass of the associated core hints that the massive cores might have longer accretion histories than the low-mass cores. Estimation of different energies in these protoclusters shows that outflows studied here cannot account for the generation of the observed turbulence, but can sustain the turbulence at the current epoch as the energy injection rate from the outflows is similar to the estimated dissipation rate. [ABSTRACT FROM AUTHOR]

Published

2021

17. TIMES. I. A Systematic Observation in Multiple Molecular Lines toward the Orion A and Ophiuchus Clouds.

Author

Yun, Hyeong-Sik, Lee, Jeong-Eun, Choi, Yunhee, II, Neal J. Evans, Offner, Stella S. R., Heyer, Mark H., Gaches, Brandt A. L., Lee, Yong-Hee, Baek, Giseon, Choi, Minho, Kang, Hyunwoo, Lee, Seokho, Tatematsu, Ken'ichi, Yang, Yao-Lun, Chen, How-Huan, Lee, Youngung, Jung, Jaehoon, Lee, Changhoon, and Cho, Jungyeon

Published

2021

18. Distortion of Magnetic Fields in a Starless Core. V. Near-infrared and Submillimeter Polarization in FeSt 1-457

Author

Tazaki, Ryo, Kandori, Ryo, Nagata, Tetsuya, Tamura, Motohide, Saito, Masao, Tomisaka, Kohji, Matsumoto, Tomoaki, Kusakabe, Nobuhiko, Nakajima, Yasushi, Kwon, Jungmi, Nagayama, Takahiro, and Tatematsu, Ken'ichi

Subjects

Physics, polarization, Line-of-sight, stars: formation, Near-infrared spectroscopy, stars: magnetic field, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics, Radiation, Polarization (waves), Dichroic glass, 01 natural sciences, Power law, Astrophysics - Astrophysics of Galaxies, ISM: clouds, Magnetic field, 010309 optics, Wavelength, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), 0103 physical sciences, dust, extinction, 010303 astronomy & astrophysics

Abstract

著者人数: 12名, Accepted: 2018-10-13, 資料番号: SA1180127000

Published

2018

19. The ALMA Survey of 70 μm Dark High-mass Clumps in Early Stages (ASHES). III. A Young Molecular Outflow Driven by a Decelerating Jet.

Author

Tafoya, Daniel, Sanhueza, Patricio, Zhang, Qizhou, Li, Shanghuo, Guzmán, Andrés E., Silva, Andrea, de la Fuente, Eduardo, Lu, Xing, Morii, Kaho, Tatematsu, Ken'ichi, Contreras, Yanett, Izumi, Natsuko, Jackson, James M., Nakamura, Fumitaka, and Sakai, Takeshi

Subjects

NUMERICAL calculations, ACCELERATION (Mechanics), COMPUTER simulation, VELOCITY, MORPHOLOGY

Abstract

We present a spatio-kinematical analysis of the CO (J = 2 → 1) line emission, observed with the Atacama Large Millimeter/submillimeter Array (ALMA), of the outflow associated with the most massive core, ALMA1, in the 70 μm dark clump G010.991–00.082. The position–velocity (PV) diagram of the molecular outflow exhibits a peculiar S-shaped morphology that has not been seen in any other star-forming region. We propose a spatio-kinematical model for the bipolar molecular outflow that consists of a decelerating high-velocity component surrounded by a slower component whose velocity increases with distance from the central source. The physical interpretation of the model is in terms of a jet that decelerates as it entrains material from the ambient medium, which has been predicted by calculations and numerical simulations of molecular outflows in the past. One side of the outflow is shorter and shows a stronger deceleration, suggesting that the medium through which the jet moves is significantly inhomogeneous. The age of the outflow is estimated to be τ ≈ 1300 yr, after correction for a mean inclination of the system of ≈57°. [ABSTRACT FROM AUTHOR]

Published

2021

20. Planck Cold Clumps in the λ Orionis Complex. III. A Chemical Probe of Stellar Feedback on Cores in the λ Orionis Cloud.

Author

Yi, Hee-Weon, Lee, Jeong-Eun, Kim, Kee-Tae, Liu, Tie, Lim, Beomdu, Tatematsu, Ken'ichi, and tion

Published

2021

21. First Data Release of the ESO-ARO Public Survey SAMPLING --- SMT 'All-sky' Mapping of PLanck Interstellar Nebulae in the Galaxy

Author

Wang, Ke, Zahorecz, Sarolta, Cunningham, Maria R., Toth, L. Viktor, Liu, Tie, Lu, Xing, Wang, Yuan, Cosentino, Giuliana, Sung, Ren-Shiang, Sokolov, Vlsa, Wang, Shen, Wang, Yuwei, Zhang, Zhiyu, Li, Di, Kim, Kee-Tae, Tatematsu, Ken'ichi, Testi, Leonardo, Wu, Yuefang, Yang, Ji, and Collaboration, SAMPLING

Subjects

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

Abstract

We make the first data release (DR1) of the ongoing ESO Public Survey SAMPLING (http://dx.doi.org/10.7910/DVN/0L8NHX). DR1 comprises of 124 fields distributed in $70^\circ < l < 216^\circ$, $-35^\circ < b < 25^\circ$. The 12CO and 13CO (2-1) cubes are gridded in $8"$ pixels, with an effective resolution of $36"$. The channel width is 0.33 km/s and the RMS noise is $T_{\rm mb}, RNAAS accepted, 3 pages, 1 figure. This version with updated author list

Published

2017

22. Astrochemistry Focus and Research on Planck Cold Clumps

Author

Tatematsu, Ken'ichi

Subjects

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

Abstract

At the Astrochemistry Focus Group, we discussed what is still missing in our understanding even with new knowledge given at this conference, and what can be done for that within 10 years from now. Still missing in understanding are UV-photons and cosmic-rays interactions with icy dust grains, Sulphur and Phosphorus chemistry, Metallicity effect, Duration (time) effect, COM formation and destruction, phase transition, dust-gas interface, dust evolution, etc. What we should do are multi-scale high spectral resolution molecular observations, laboratory work, theory, radiative transfer, etc. We need careful modeling without simplifying things. Next, I introduce our research on Planck cold clumps. We observed thirteen Planck cold clumps with the James Clerk Maxwell Telescope/SCUBA-2 and with the Nobeyama 45 m radio telescope. The N$_2$H$^+$ distribution obtained with the Nobeyama telescope is quite similar to SCUBA-2 dust distribution. The 82 GHz HC$_3$N, 82 GHz CCS, and 94 GHz CCS emission are often distributed differently with respect to the N$_2$H$^+$ emission. The CCS emission, which is known to be abundant in starless molecular cloud cores, is often very clumpy in the observed targets. We made deep single-pointing observations in DNC, HN$^{13}$C, N$_2$D$^+$, cyclic C$_3$H$_2$ toward nine clumps. The detection rate of N$_2$D$^+$ is 50\%. In two of the starless clumps observe, the CCS emission is distributed as it surrounds the N$_2$H$^+$ core (chemically evolved gas), which resembles the case of L1544, a prestellar core showing collapse. In addition, we detected both DNC and N$_2$D$^+$. These two clumps are most likely on the verge of star formation. We introduce the Chemical Evolution Factor (CEF) for starless cores to describe the chemical evolutionary stage, and analyze the observed Planck cold clumps., Proceedings of the Star Formation in Different Environments, ICISE, Quy Nhon, Vietnam, 2016, (eds. D. Johnstone, T. Hoang, F. Nakamura, Q. Nguyen-Luong, and J. T. Tranh Van)

Published

2017

23. ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Detection of Extremely High-density Compact Structure of Prestellar Cores and Multiple Substructures Within.

Author

Sahu, Dipen, Liu, Sheng-Yuan, Liu, Tie, II, Neal J. Evans, Hirano, Naomi, Tatematsu, Ken'ichi, Lee, Chin-Fei, Kim, Kee-Tae, Dutta, Somnath, Alina, Dana, Bronfman, Leonardo, Cunningham, Maria, Eden, David J., Garay, Guido, Goldsmith, Paul F., He, Jinhua, Hsu, Shih-Ying, Jhan, Kai-Syun, Johnstone, Doug, and Juvela, Mika

Published

2021

24. ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP). II. Survey Overview: A First Look at 1.3 mm Continuum Maps and Molecular Outflows.

Author

Dutta, Somnath, Lee, Chin-Fei, Liu, Tie, Hirano, Naomi, Liu, Sheng-Yuan, Tatematsu, Ken'ichi, Kim, Kee-Tae, Shang, Hsien, Sahu, Dipen, Kim, Gwanjeong, Moraghan, Anthony, Jhan, Kai-Syun, Hsu, Shih-Ying, Evans, Neal J., Johnstone, Doug, Ward-Thompson, Derek, Kuan, Yi-Jehng, Lee, Chang Won, Lee, Jeong-Eun, and Traficante, Alessio

Published

2020

25. The ALMA Survey of 70 μm Dark High-mass Clumps in Early Stages (ASHES). II. Molecular Outflows in the Extreme Early Stages of Protocluster Formation.

Author

Li, Shanghuo, Sanhueza, Patricio, Zhang, Qizhou, Nakamura, Fumitaka, Lu, Xing, Wang, Junzhi, Liu, Tie, Tatematsu, Ken'ichi, Jackson, James M., Silva, Andrea, Guzmán, Andrés E., Sakai, Takeshi, Izumi, Natsuko, Tafoya, Daniel, Li, Fei, Contreras, Yanett, Morii, Kaho, and Kim, Kee-Tae

Subjects

STAR formation, PROTOSTARS, ENERGY dissipation, TURBULENCE

Abstract

We present a study of outflows at extremely early stages of high-mass star formation obtained from the ALMA Survey of 70 μm dark High-mass clumps in Early Stages (ASHES). Twelve massive 3.6−70 μm dark prestellar clump candidates were observed with the Atacama Large Millimeter/submillimeter Array (ALMA) in Band 6. Forty-three outflows are identified toward 41 out of 301 dense cores using the CO and SiO emission lines, yielding a detection rate of 14%. We discover six episodic molecular outflows associated with low- to high-mass cores, indicating that episodic outflows (and therefore episodic accretion) begin at extremely early stages of protostellar evolution for a range of core masses. The time span between consecutive ejection events is much smaller than those found in more evolved stages, which indicates that the ejection episodicity timescale is likely not constant over time. The estimated outflow dynamical timescale appears to increase with core masses, which likely indicates that more massive cores have longer accretion timescales than less massive cores. The lower accretion rates in these 70 μm dark objects compared to the more evolved protostars indicate that the accretion rates increase with time. The total outflow energy rate is smaller than the turbulent energy dissipation rate, which suggests that outflow-induced turbulence cannot sustain the internal clump turbulence at the current epoch. We often detect thermal SiO emission within these 70 μm dark clumps that is unrelated to CO outflows. This SiO emission could be produced by collisions, intersection flows, undetected protostars, or other motions. [ABSTRACT FROM AUTHOR]

Published

2020

26. Distortion of Magnetic Fields in the Dense Core SL 42 (CrA-E) in the Corona Australis Molecular Cloud Complex.

Author

Kandori, Ryo, Tamura, Motohide, Saito, Masao, Tomisaka, Kohji, Matsumoto, Tomoaki, Tazaki, Ryo, Nagata, Tetsuya, Kusakabe, Nobuhiko, Nakajima, Yasushi, Kwon, Jungmi, Nagayama, Takahiro, and Tatematsu, Ken'ichi

Subjects

MAGNETIC fields, MOLECULAR clouds, MAGNETIC structure, MAGNETIC cores, MAGNETIC flux density

Abstract

The detailed magnetic field structure of the dense core SL 42 (CrA-E) in the Corona Australis molecular cloud complex was investigated based on near-infrared polarimetric observations of background stars to measure dichroically polarized light produced by magnetically aligned dust grains. The magnetic fields in and around SL 42 were mapped using 206 stars, and curved magnetic fields were identified. On the basis of simple hourglass (parabolic) magnetic field modeling, the magnetic axis of the core on the plane of the sky was estimated to be 40° ± 3°. The plane-of-sky magnetic field strength of SL 42 was found to be 22.4 ± 13.9 μG. Taking into account the effects of thermal/turbulent pressure and the plane-of-sky magnetic field component, the critical mass of SL 42 was obtained to be Mcr = 21.2 ± 6.6 M⊙, which is close to the observed core mass of Mcore ≈ 20 M⊙. We thus conclude that SL 42 is in a condition close to the critical state if the magnetic fields lie near the plane of the sky. Because there is a very low-luminosity object toward the center of SL 42, it is unlikely that this core is in a highly subcritical condition (i.e., the magnetic inclination angle is significantly deviated from the plane of the sky). The core probably started to collapse from a nearly kinematically critical state. In addition to the hourglass magnetic field modeling, the Inoue & Fukui mechanism may explain the origin of the curved magnetic fields in the SL 42 region. [ABSTRACT FROM AUTHOR]

Published

2020

27. ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP). I. Detection of New Hot Corinos with the ACA.

Author

Hsu, Shih-Ying, Liu, Sheng-Yuan, Liu, Tie, Sahu, Dipen, Hirano, Naomi, Lee, Chin-Fei, Tatematsu, Ken'ichi, Kim, Gwanjeong, Juvela, Mika, Sanhueza, Patricio, He, Jinhua, Johnstone, Doug, Qin, Sheng-Li, Bronfman, Leonardo, Chen, Huei-Ru Vivien, Dutta, Somnath, Eden, David J., Jhan, Kai-Syun, Kim, Kee-Tae, and Kuan, Yi-Jehng

Subjects

MOLECULAR clouds, MOLECULAR structure, HIGH temperatures, PROTOSTARS

Abstract

We report the detection of four new hot corino sources, G211.47–19.27S, G208.68–19.20N1, G210.49–19.79W, and G192.12–11.10, from a survey study of Planck Galactic Cold Clumps in the Orion Molecular Cloud Complex with the Atacama Compact Array. Three sources had been identified as low-mass Class 0 protostars in the Herschel Orion Protostar Survey. One source in the λ Orionis region is first reported as a protostellar core. We have observed abundant complex organic molecules (COMs), primarily methanol but also other oxygen-bearing COMs (in G211.47–19.27S and G208.68–19.20N1) and the molecule of prebiotic interest NH2CHO (in G211.47–19.27S), signifying the presence of hot corinos. While our spatial resolution is not sufficient to resolve most of the molecular emission structure, the large line width and high rotational temperature of COMs suggest that they likely reside in the hotter and innermost region immediately surrounding the protostar. In G211.47–19.27S, the D/H ratio of methanol ([CH2DOH]/[CH3OH]) and the 12C/13C ratio of methanol ([CH3OH]/[13CH3OH]) are comparable to those of other hot corinos. Hydrocarbons and long-carbon-chain molecules such as c-C3H2 and HCCCN are also detected in the four sources, likely tracing the outer and cooler molecular envelopes. [ABSTRACT FROM AUTHOR]

Published

2020

28. ATOMS: ALMA Three-millimeter Observations of Massive Star-forming regions – I. Survey description and a first look at G9.62+0.19.

Author

Liu, Tie, Evans, Neal J, Kim, Kee-Tae, Goldsmith, Paul F, Liu, Sheng-Yuan, Zhang, Qizhou, Tatematsu, Ken'ichi, Wang, Ke, Juvela, Mika, Bronfman, Leonardo, Cunningham, Maria R, Garay, Guido, Hirota, Tomoya, Lee, Jeong-Eun, Kang, Sung-Ju, Li, Di, Li, Pak-Shing, Mardones, Diego, Qin, Sheng-Li, and Ristorcelli, Isabelle

Subjects

GAS distribution, STAR formation, STELLAR initial mass function, TRACE gases, ATOMS, DATA analysis

Abstract

The ATOMS, standing for ALMA Three-millimeter Observations of Massive Star-forming regions, survey has observed 146 active star-forming regions with ALMA band 3, aiming to systematically investigate the spatial distribution of various dense gas tracers in a large sample of Galactic massive clumps, to study the roles of stellar feedback in star formation, and to characterize filamentary structures inside massive clumps. In this work, the observations, data analysis, and example science of the ATOMS survey are presented, using a case study for the G9.62+0.19 complex. Toward this source, some transitions, commonly assumed to trace dense gas, including CS J  = 2−1, HCO+ J  = 1−0, and HCN J  = 1−0, are found to show extended gas emission in low-density regions within the clump; less than 25 per cent of their emission is from dense cores. SO, CH3OH, H13CN, and HC3N show similar morphologies in their spatial distributions and reveal well the dense cores. Widespread narrow SiO emission is present (over ∼1 pc), which may be caused by slow shocks from large–scale colliding flows or H  ii regions. Stellar feedback from an expanding H  ii region has greatly reshaped the natal clump, significantly changed the spatial distribution of gas, and may also account for the sequential high-mass star formation in the G9.62+0.19 complex. The ATOMS survey data can be jointly analysed with other survey data, e.g. MALT90, Orion B, EMPIRE, ALMA_IMF, and ALMAGAL, to deepen our understandings of 'dense gas' star formation scaling relations and massive protocluster formation. [ABSTRACT FROM AUTHOR]

Published

2020

29. ATOMS: ALMA three-millimeter observations of massive star-forming regions – II. Compact objects in ACA observations and star formation scaling relations.

Author

Liu, Tie, Evans, Neal J, Kim, Kee-Tae, Goldsmith, Paul F, Liu, Sheng-Yuan, Zhang, Qizhou, Tatematsu, Ken'ichi, Wang, Ke, Juvela, Mika, Bronfman, Leonardo, Cunningham, Maria R, Garay, Guido, Hirota, Tomoya, Lee, Jeong-Eun, Kang, Sung-Ju, Li, Di, Li, Pak-Shing, Mardones, Diego, Qin, Sheng-Li, and Ristorcelli, Isabelle

Subjects

STAR formation, STAR observations, ATOMS, OPTICAL depth (Astrophysics), LUMINOSITY, ASTROCHEMISTRY, RADIO galaxies

Abstract

We report studies of the relationships between the total bolometric luminosity (L bol or L TIR) and the molecular line luminosities of J  = 1 − 0 transitions of H13CN, H13CO+, HCN, and HCO+ with data obtained from ACA observations in the 'ATOMS' survey of 146 active Galactic star-forming regions. The correlations between L bol and molecular line luminosities |$L^{\prime }_{\rm mol}$| of the four transitions all appear to be approximately linear. Line emission of isotopologues shows as large scatters in L bol– |$L^{\prime }_{\rm mol}$| relations as their main line emission. The log(L bol/ |$L^{\prime }_{\rm mol}$|⁠) for different molecular line tracers have similar distributions. The L bol-to- |$L^{\prime }_{\rm mol}$| ratios do not change with galactocentric distances (R GC) and clump masses (M clump). The molecular line luminosity ratios (HCN-to-HCO+, H13CN-to-H13CO+, HCN-to-H13CN, and HCO+-to-H13CO+) all appear constant against L bol, dust temperature (T d), M clump, and R GC. Our studies suggest that both the main lines and isotopologue lines are good tracers of the total masses of dense gas in Galactic molecular clumps. The large optical depths of main lines do not affect the interpretation of the slopes in star formation relations. We find that the mean star formation efficiency (SFE) of massive Galactic clumps in the 'ATOMS' survey is reasonably consistent with other measures of the SFE for dense gas, even those using very different tracers or examining very different spatial scales. [ABSTRACT FROM AUTHOR]

Published

2020

30. Molecular Cloud Cores with a High Deuterium Fraction: Nobeyama Single-pointing Survey.

Author

Kim, Gwanjeong, Tatematsu, Ken'ichi, Liu, Tie, Yi, Hee-Weon, He, Jinhua, Hirano, Naomi, Liu, Sheng-Yuan, Choi, Minho, Sanhueza, Patricio, Tóth, L. Viktor, II, Neal J. Evans, Feng, Siyi, Juvela, Mika, Kim, Kee-Tae, Vastel, Charlotte, Lee, Jeong-Eun, Lu'o'ng, Quang Nguyę̃n, Kang, Miju, Ristorcelli, Isabelle, and Fehér, Orsolya

Published

2020

31. ALMA ACA and Nobeyama Observations of Two Orion Cores in Deuterated Molecular Lines.

Author

Tatematsu, Ken'ichi, Liu, Tie, Kim, Gwanjeong, Yi, Hee-Weon, Lee, Jeong-Eun, Hirano, Naomi, Liu, Sheng-Yuan, Ohashi, Satoshi, Sanhueza, Patricio, Francesco, James Di, II, Neal J. Evans, Fuller, Gary A., Kandori, Ryo, Choi, Minho, Kang, Miju, Feng, Siyi, Hirota, Tomoya, Sakai, Takeshi, Lu, Xing, and Lu'o'ng, Quang Nguyęn

Subjects

*RADIO telescopes, *DEUTERIUM, *MOLECULAR clouds, *STAR formation, *GENE mapping, *TELESCOPES

Abstract

We mapped two molecular cloud cores in the Orion A cloud with the 7 m Array of the Atacama Compact Array (ACA) of the Atacama Large Millimeter/submillimeterArray (ALMA) and with the Nobeyama 45 m radio telescope. These cores have bright N2D+ emission in single-pointing observations with the Nobeyama 45 m radio telescope, have a relatively high deuterium fraction, and are thought to be close to the onset of star formation. One is a star-forming core, and the other is starless. These cores are located along filaments observed in N2H+ and show narrow line widths of 0.41 km s−1 and 0.45 km s−1 in N2D+, respectively, with the Nobeyama 45 m telescope. Both cores were detected with the ALMA ACA 7 m Array in the continuum and molecular lines at Band 6. The starless core G211 shows a clumpy structure with several sub-cores, which in turn show chemical differences. Also, the sub-cores in G211 have internal motions that are almost purely thermal. The starless sub-core G211D, in particular, shows a hint of the inverse P Cygni profile, suggesting infall motion. The star-forming core G210 shows an interesting spatial feature of two N2D+ peaks of similar intensity and radial velocity located symmetrically with respect to the single dust continuum peak. One interpretation is that the two N2D+ peaks represent an edge-on pseudo-disk. The CO outflow lobes, however, are not directed perpendicular to the line connecting both N2D+ peaks. [ABSTRACT FROM AUTHOR]

Published

2020

32. A further study of the molecular cloud associated with the supernova remnant G109.1-1.0

Author

Tatematsu, Ken'ichi, Fukui, Yasuo, Iwata, Takahiro, Seward, Frederick D, and Nakano, Makoto

Subjects

Astrophysics

Abstract

The region of the semicircular SNR G109.1-1.0 is studied on the basis of CO observations with a 45-m radio telescope and X-ray data from the archive of the Einstein Observatory. By observing the J = 1-0 transition of CO at 115 GHz, the distribution of the molecular cloud associated with the remnant is investigated in detail. The resolution of the CO mapping observations is 0.6-1.2 pc and the number of the CO spectra obtained is about 2000. The molecular ridge (CO arm), which was known to show an apparent anticorrelation with the curled x-ray jetlike feature of the remnant, is resolved into two CO filaments. The hardness of the X-ray spectrum toward the CO arm is consistent with the column densities of the two CO filaments. However, the overall appearance of the remnant will not be affected very much by the absorption, because the X-ray absorption is found to be a minor effect.

Published

1990

33. Sequential star formation in the filamentary structures of the Planck Galactic cold clump G181.84+0.31.

Author

Yuan, Lixia, Zhu, Ming, Liu, Tie, Yuan, Jinghua, Wu, Yuefang, Kim, Kee-Tae, Wang, Ke, Zhou, Chenlin, Tatematsu, Ken'ichi, and Kuno, Nario

Subjects

STAR formation, TECHNOLOGY, PROTOSTARS, EARTH sciences, SPHEROIDAL functions, LARGE astronomical telescopes

Published

2019

34. Dense Molecular Clumps associated with the LMC Supergiant Shells LMC 4 \& LMC 5

Author

Fujii, Kosuke, Minamidani, Tetsuhiro, Mizuno, Norikazu, Onishi, Toshikazu, Kawamura, Akiko, Muller, Erik, Dawson, Joanne, Tatematsu, Ken'ichi, Hasegawa, Tetsuo, Tosaki, Tomoka, Miura, Rie E., Muraoka, Kazuyuki, Sakai, Takeshi, Tsukagoshi, Takashi, Tanaka, Kunihiko, Ezawa, Hajime, and Fukui, Yasuo

Subjects

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

Abstract

We investigate the effects of Supergiant Shells (SGSs) and their interaction on dense molecular clumps by observing the Large Magellanic Cloud (LMC) star forming regions N48 and N49, which are located between two SGSs, LMC 4 and LMC 5. $^{12}$CO ($J$=3-2, 1-0) and $^{13}$CO ($J$=1-0) observations with the ASTE and Mopra telescopes have been carried out towards these regions. A clumpy distribution of dense molecular clumps is revealed with 7 pc spatial resolution. Large velocity gradient analysis shows that the molecular hydrogen densities ($n({\rm H}_2)$) of the clumps are distributed from low to high density ($10^3$-$10^5$ cm$^{-3}$) and their kinetic temperatures ($T_{\rm kin}$) are typically high (greater than $50$ K). These clumps seem to be in the early stages of star formation, as also indicated from the distribution of H$\alpha$, young stellar object candidates, and IR emission. We found that the N48 region is located in the high column density HI envelope at the interface of the two SGSs and the star formation is relatively evolved, whereas the N49 region is associated with LMC 5 alone and the star formation is quiet. The clumps in the N48 region typically show high $n({\rm H}_2)$ and $T_{\rm kin}$, which are as dense and warm as the clumps in LMC massive cluster-forming areas (30 Dor, N159). These results suggest that the large-scale structure of the SGSs, especially the interaction of two SGSs, works efficiently on the formation of dense molecular clumps and stars., Comment: 26 pages, 7 tables, 16 figures

Published

2014

35. A survey of emission-line stars in the CMa star formation region

Author

Wiramihardja, Suhardja D., Kogure, Tomokazu, Nakano, Makoto, Yoshida, Shigeomi, and Tatematsu, Ken'Ichi

Published

1986

36. Warm and dense molecular gas in the n 159 region: (co)-c-12 j=4-3 and (co)-c-13 j=3-2 observations with nanten2 and aste

Author

Mizuno, Yoji, Kawamura, Akiko, Onishi, Toshikazu, Minamidani, Tetsuhiro, Muller, Erik, Yamamoto, Hiroaki, Hayakawa, Takahiro, Mizuno, Norikazu, Mizuno, Akira, Stutzki, Juergen, Pineda, Jorge L., Klein, Uli, Bertoldi, Frank, Koo, Bon-Chul, Rubio, Monica, Burton, Michael, Benz, Arnold, Ezawa, Hajime, Yamaguchi, Nobuyuki, Kohno, Kotaro, Hasegawa, Tetsuo, Tatematsu, Ken'ichi, Ikeda, Masafumi, Ott, Juergen, Wong, Tony, Hughes, Annie, Meixner, Margaret, Indebetouw, Remy, Gordon, Karl D., Whitney, Barbara, Bernard, Jean-Philippe, and Fukui, Yasuo

Published

2010

37. Class II 6.7 GHz Methanol Maser Association with Young Massive Cores Revealed by ALMA.

Author

Chibueze, James O., Csengeri, Timea, Tatematsu, Ken'ichi, Hasegawa, Tetsuo, Iguchi, Satoru, Alhassan, Jibrin A., Higuchi, Aya E., Bontemps, Sylvain, Menten, Karl M., Tarchi, A., Reid, M.J., and Castangia, P.

Abstract

The association of 6.7 GHz class II methanol (CH3OH) masers with ATLASGAL/ ALMA 0.9 mm massive dense cores is presented in this work from a statistical viewpoint. 42 of the 112 cores (37.5%) detected with the Atacama Compact Array (ACA) excite 6.7 GHz CH3OH masers. ACA cores have offsets 0\rlap.″17 to 4\rlap.″79 from the methanol multibeam survey (MMB), with a median of 2.″19. Approximately 90% of the MMB-associated cores are of masses > 40 M⊙. Because all the cores show evidence of outflow activity, and only a fraction of the cores excited CH3OH masers, we suggest that outflows precede the emergence of maser emission. This first ALMA survey of massive dense cores combined with the MMB survey along with other maser specie surveys is a promising tool to trace the evolutionary sequence of high-mass stars. [ABSTRACT FROM AUTHOR]

Published

2017

38. Origin of Hot Bubble in NGC 6822 Hubble V Star-Forming Region.

Author

Lee, Hye-In, Oh, Heeyoung, Lim, Beomdu, Le, Huynh Anh N., Lee, Sungho, Mace, Gregory, Jaffe, Daniel T., Tatematsu, Ken'ichi, Park, Sangwook, and Pak, Soojong

Abstract

We observed a bright H II complex, Hubble V in NGC 6822, using the high-resolution near-infrared spectrograph IGRINS (R = 45,000) attached on the 2.7 m telescope at the McDonald Observatory. We carried out a spectral mapping over a 15″ × 18″ region in the H and K bands using a slit-scanning technique. The emission lines Brγ and He i from ionized regions as well as molecular hydrogen lines from photo-dissociation regions (PDRs), were detected. We show three-dimensional maps of the emission lines and discuss the possibility of an expanding hot bubble structure within which many ionized components are around the central stellar cluster. [ABSTRACT FROM AUTHOR]

Published

2018

39. Submillimeter-wave and millimeter-wave observations of the interaction of supernova remnants with molecular clouds.

Author

Tatematsu, Ken’ichi, Arikawa, Yuji, and Sekimoto, Yutaro

Subjects

*SUPERNOVA remnants, *MOLECULAR clouds, *ASTROPHYSICS

Abstract

We report on submillimeter-wave and millimeter-wave observations toward supernova remnants (SNRs) by using the James Clerk Maxwell Telescope, the Mt. Fuji submillimeter-wave telescope, and the Nobeyama 45-m radio telescope. For the supernova remnant W28, which is an EGRET gamma-ray source, we have convincingly detected the broad CO, HCO[sup +], HCN, and SiO emission lines from the shock-accelerated gas due to the SNR-cloud interaction. The previously-reported 1720-MHz OH maser spot is found to be located at the shock front. By using the Mt. Fuji submillimeter-wave telescope, we observed the 492-GHz Cl (neutral atomic carbon), 345-GHz CO (3–2) and 330-GHz [sup 13]CO (3–2) emission toward SNRs, W44 and W51B/C. We found that the Cl/CO and CI/[sup 13]CO intensity ratio tends to be high in the SNR-cloud interaction region in W51B/C SNR. This fact might suggest the CI relative abundance is enhanced by the interaction, not only in the SNR IC 443, but also in W51B/C SNR. [ABSTRACT FROM AUTHOR]

Published

2001

40. The Mt. Fuji submillimeter-wave telescope.

Author

Sekimoto, Yutaro, Arikawa, Yuji, Aso, Yoshiyuki, Fujiwara, Hideo, Ikeda, Masafumi, Inatani, Junji, Ito, Tetsuya, Iwata, Mituhiro, Kamegai, Kazuhisa, Maezawa, Hiroyuki, Noguchi, Takashi, Ohishi, Masatoshi, Oka, Tomoharu, Ozeki, Hiroyuki, Saito, Gaku, Saito, Shuji, Sakai, Takeshi, Shi, Sheng-Cai, Tatematsu, Ken'ichi, and Yamamoto, Satoshi

Published

2000

41. Chemical variation in molecular cloud cores in the Orion A cloud. II.

Author

Tatematsu, Ken'ichi, Ohashi, Satoshi, Umemoto, Tomofumi, Lee, Jeong-Eun, Hirota, Tomoya, Yamamoto, Satoshi, Choi, Minho, Kandori, Ryo, and Mizuno, Norikazu

Subjects

*MOLECULAR clouds, *ORION Nebula, *KINETIC energy, *STAR formation, *TEMPERATURE, *RADIO telescopes

Abstract

We have mapped six molecular cloud cores in the Orion A giant molecular cloud (GMC), whose kinetic temperatures range from 10 to 30 K, in CCS and N2H+ with the Nobeyama 45 m radio telescope to study their chemical characteristics. We identified 31 intensity peaks in the CCS and N2H+ emission in these molecular cloud cores. We found, for cores with temperatures lower than ∼ 25 K, that the column density ratio of N(N2H+)/N(CCS) is low toward starless core regions while it is high toward star-forming core regions, in cases where we detected both the CCS and N2H+ emission. This is very similar to the tendency found in dark clouds (kinetic temperature ∼ 10 K). The criterion found in the Orion A GMC is N(N2H+)/N(CCS) ∼ 2–3. In some cases, both CCS and N2H+ emission is detected toward protostars. A secondary late-stage CCS peak in the chemical evolution caused by CO depletion may be a possible explanation for this. We found that the chemical variation of CCS and N2H+ can also be used as a tracer of evolution in warm (10–25 K) GMC cores. On the other hand, some protostars do not accompany N2H+ intensity peaks but are associated with dust continuum emitting regions, suggesting that the N2H+ abundance might be decreased due to CO evaporation in warmer star-forming sites. [ABSTRACT FROM AUTHOR]

Published

2014

42. EVIDENCE FOR INFLOW IN HIGH-MASS STAR-FORMING CLUMPS.

Author

REITER, MEGAN, SHIRLEY, YANCY L., WU, JINGWEN, BROGAN, CRYSTAL, WOOTTEN, ALWYN, and TATEMATSU, KEN'ICHI

Subjects

STAR formation, QUANTITATIVE research, STELLAR mass, DENSITY of stars, MASS loss (Astrophysics)

Abstract

We analyze the HCO+ 3-2 and H13CO+ 3-2 line profiles of 27 high-mass star-forming regions to identify asymmetries that are suggestive of mass inflow. Three quantitative measures of line asymmetry are used to indicate whether a line profile is blue, red, or neither--the ratio of the temperature of the blue and red peaks, the line skew, and the dimensionless parameter δv. We find nine HCO+ 3-2 line profiles with a significant blue asymmetry and four with significant red asymmetric profiles. Comparing our HCO+ 3-2 results to HCN 3-2 observations from Wu et al., we find that eight of the blue and three of the red have profiles with the same asymmetry in HCN. The eight sources with blue asymmetries in both tracers are considered strong candidates for inflow. Quantitative measures of the asymmetry (e.g., δv) tend to be larger for HCN. This, combined with possible HCO+ abundance enhancements in outflows, suggests that HCN may be a better tracer of inflow. Understanding the behavior of common molecular tracers like HCO+ in clumps of different masses is important for properly analyzing the line profiles seen in a sample of sources representing a broad range of clump masses. Such studies will soon be possible with the large number of sources with possible self-absorption seen in spectroscopic follow-up observations of clumps identified in the Bolocam Galactic Plane Survey. [ABSTRACT FROM AUTHOR]

Published

2011

43. IRAS 15099–5856: REMARKABLE MID-INFRARED SOURCE WITH PROMINENT CRYSTALLINE SILICATE EMISSION EMBEDDED IN THE SUPERNOVA REMNANT MSH15–52.

Author

Koo, Bon-Chul, McKee, Christopher F., Suh, Kyung-Won, Moon, Dae-Sik, Onaka, Takashi, Burton, Michael G., Hiramatsu, Masaaki, Bessell, Michael S., Gaensler, B. M., Kim, Hyun-Jeong, Lee, Jae-Joon, Jeong, Woong-Seob, Lee, Ho-Gyu, Im, Myungshin, Tatematsu, Ken'ichi, Kohno, Kotaro, Kawabe, Ryohei, Ezawa, Hajime, Wilson, Grant, and Yun, Min S.

Published

2011

44. An observational study of GMCs in the Magellanic Clouds with the ASTE telescope.

Author

Minamidani, Tetsuhiro, Mizuno, Norikazu, Mizuno, Yoji, Kawamura, Akiko, Onishi, Toshikazu, Tatematsu, Ken'ichi, Hasegawa, Tetsuo, Ikeda, Masafumi, and Fukui, Yasuo

Abstract

We report the results of the submillimeter observations with the ASTE 10 m telescope toward the giant molecular clouds (GMCs) in the Magellanic Clouds to reveal the physical properties of dense molecular gas, the principle sites of star and cluster formation. Six GMCs in the Large Magellanic Cloud have been mapped in the 12CO(J = 3 − 2) transition and 32 clumps are identified in these GMCs at a resolution of 5 pc. These data are combined with 12CO(J = 1 − 0) and 13CO(J = 1 − 0) results and compared with LVG calculations to derive the density and temperature of clumps. The derived density and temperature are distributed in wide ranges. We have made small mapping observations in the 13CO(J = 3 − 2) transition toward 9 representative peak positions of clumps to determine the density and temperature of clumps. These physical properties are constrained well and there are differences in density and temperature among clumps. We suggest that these differences of clump properties represent an evolutionary sequence of GMCs in terms of density increase leading to star formation. [ABSTRACT FROM PUBLISHER]

Published

2008

45. Submillimeter Observations of Giant Molecular Clouds in the Large Magellanic Cloud: Temperature and Density as Determined from J = 3-2 and J = 1-0 Transitions of CO.

Author

Minamidani, Tetsuhiro, Mizuno, Norikazu, Mizuno, Yoji, Kawamura, Akiko, Onishi, Toshikazu, Hasegawa, Tetsuo, Tatematsu, Ken’ichi, Ikeda, Masafumi, Moriguchi, Yoshiaki, Yamaguchi, Nobuyuki, Ott, Jürgen, Wong, Tony, Muller, Erik, Pineda, Jorge L., Hughes, Annie, Staveley-Smith, Lister, Klein, Ulrich, Mizuno, Akira, Nikolić, Silvana, and Booth, Roy S.

Published

2008

46. Ammonia Imaging of the Disks in the NGC 1333 IRAS 4A Protobinary System.

Author

Choi, Minho, Tatematsu, Ken’ichi, Park, Geumsook, and Kang, Miju

Published

2007

47. ASTE Submillimeter Observations of a Young Stellar Object Condensation in Cederblad 110.

Author

Hiramatsu, Masaaki, Hayakawa, Takahiro, Tatematsu, Ken’ichi, Kamegai, Kazuhisa, Onishi, Toshikazu, Mizuno, Akira, Yamaguchi, Nobuyuki, and Hasegawa, Tetsuo

Published

2007

48. N2H+ Observations of Molecular Cloud Cores in Taurus.

Author

Tatematsu, Ken’ichi, Umemoto, Tomofumi, Kandori, Ryo, and Sekimoto, Yutaro

Published

2004

49. Distribution of the [C I] Emission in the ρ Ophiuchi Dark Cloud.

Author

Kamegai, Kazuhisa, Ikeda, Masafumi, Maezawa, Hiroyuki, Ito, Tetsuya, Iwata, Mitsuhiro, Sakai, Takeshi, Oka, Tomoharu, Yamamoto, and Satoshi, Sekimoto, Yutaro, Tatematsu, Ken’ichi, Noguchi, and Takashi, Saito, Shuji, Fujiwara, Hideo, Ozeki, Hiroyuki, Inatani, Junji, and Ohishi, Masatoshi

Published

2003

50. The Distribution of Atomic Carbon in the Orion Giant Molecular Cloud 1.

Author

Ikeda, Masafumi, Oka, Tomoharu, Tatematsu, Ken’ichi, Sekimoto, Yutaro, and Yamamoto, Satoshi

Published

2002