A Wide-field CO Survey toward the California Molecular Filament

Guo, Wenrui; Chen, Xuepeng; Feng, Jiancheng; Sun, Lianhong; Wang, Chen; Su, Yang; Sun, Yan; Ao, Yiping; Zhang, Shaobo; Zhou, Xin; Yuan, Lixia; Yang, Ji

doi:10.3847/1538-4357/ac15fe

Cited by 11 publications

(7 citation statements)

References 64 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In another picture, MCs appear to be transient objects that may never reach a configuration of equilibrium (Passot et al 1995;Vazquez-Semadent et al 1995;Ballesteros-Paredes et al 1999;Vázquez-Semadeni et al 2003;Clark et al 2012;Ballesteros-Paredes et al 2020). They can form in the diffuse ISM through local compressions induced by the converging flows from the differential rotation and shear of the spiral arms (Kwan & Valdes 1983;Tomisaka 1984;Kwan & Valdes 1987), the passage of H II regions or supernova shells (Heiles 1979(Heiles , 1984Tenorio-Tagle & Bodenheimer 1988;Hartmann et al 2001), shock-wave passage (Bergin et al 2004;Clark et al 2012;Guo et al 2021), large-scale gravitational instability of rotating disk (Lin & Shu 1964;Roberts 1969;Shetty & Ostriker 2008;Tasker & Tan 2009;Dobbs et al 2011), cloud agglomeration (Oort 1954;Field & Saslaw 1965;Kwan & Valdes 1983;Tomisaka 1984;Dobbs & Baba 2014), and cloud-cloud collisions (Gilden 1984;Fukui et al 2014;Dobbs et al 2015;Fukui et al 2016;Gong et al 2017). In addition, the density fluctuations within MCs can be produced by a common hierarchy of interstellar converging flows, i.e., the supersonic dissipation in the ambient medium (Larson 1981;Myers 1983;Cernicharo et al 1985;Falgarone et al 1992;Heyer & Brunt 2004;…”

Section: Implications Of the Assembly And Destruction Of Mcsmentioning

confidence: 99%

On the Spatial Distribution of ¹³CO Structures within ¹²CO Molecular Clouds

Yuan

Yang

et al. 2023

ApJ

Self Cite

View full text Add to dashboard Cite

We look into the 2851 12CO molecular clouds harboring 13CO structures to reveal the distribution of the projected angular separations and radial velocity separations between their internal 13CO structures. The projected angular separations are determined using the minimal spanning tree algorithm. We find that ∼50% of the angular separations fall in a narrow range of ∼3′–7′ with a median of ∼5′, and the corresponding radial velocity separations mainly range from ∼0.3 to 2.5 km s−1. The mean and standard deviation of the angular separations of the internal 13CO structures within 12CO clouds appear to be universal, independent of the 12CO cloud angular areas and the counts of their internal 13CO structures. We also reveal a scaling relation between the 12CO cloud angular area and its harbored 13CO structure count. These results suggest there is a preferred angular separation between 13CO structures in these 12CO clouds, considering the distance effects. According to that, we propose an alternative picture for the assembly and destruction of molecular clouds: there is a fundamental separation for the internal structures of molecular clouds, the build-up and destruction of molecular clouds proceeds under this fundamental unit.

show abstract

Section: Implications Of the Assembly And Destruction Of Mcsmentioning

confidence: 99%

On the Spatial Distribution of ¹³CO Structures within ¹²CO Molecular Clouds

Yuan

Yang

et al. 2023

ApJ

Self Cite

View full text Add to dashboard Cite

show abstract

“…The oscillation pattern along PV diagrams commonly appears in spectral line observations toward filamentary clouds (see, e.g., Jackson et al 2010;Hacar & Tafalla 2011;Hacar et al 2013;Guo et al 2021), which is generally interpreted as mass transport along the segment due to core accretion (Kirk et al 2013;Heitsch 2013;Henshaw et al 2014;Lu et al 2018). We estimate mass flow rates (  M) using the simple cylindrical model from Kirk et al (2013),…”

Section: Kinematics Of the Filamentsmentioning

confidence: 99%

“…It is necessary to search for more filamentary clouds to reveal their gas dynamics in terms of filament fragmentation, core accretion, and highmass star formation. The Milky Way Imaging Scroll Painting (MWISP) project 3 is an unbiased, high-sensitivity CO multiline survey toward the northern Galactic plane (Su et al 2019;Sun et al 2021), which provides us with a good opportunity to study large-scale filamentary clouds (e.g., Guo et al 2021;Yuan et al 2021). In this work, we present observations of three CO isotope lines toward the Galactic region of 153°.6 l 156°.5 and 1°.85 b 3°.…”

Section: Introductionmentioning

confidence: 99%

“…For example, about 75% of pre-and protostellar cores were found to be located in filaments in the Herschel Gould Belt Survey (e.g., André et al 2014;Könyves et al 2015). Large-scale filaments containing dense molecular gas appear to form massive stars and clusters, e.g., Nessie (Jackson et al 2010;Mattern et al 2018), Orion (Bally 1981;Johnstone & Bally 1999;Tatematsu et al 2008), California (Lada et al 2009(Lada et al , 2017Guo et al 2021), and NGC 6334 (Russeil et al 2013;Fukui et al 2018), though the relevant mechanisms are still under study. Motte et al (2018) suggested an evolutionary picture for the formation of high-mass stars, which involves scenarios of a global hierarchical collapse and clump-fed accretion.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

CO(J = 1 – 0) Observations toward the Filamentary Cloud in the Galactic Region of 153.°60 ≤ l ≤ 156.°50 and 1.°85 ≤ b ≤ 3.°50

Guo

Chen

Feng

et al. 2022

ApJ

Self Cite

View full text Add to dashboard Cite

We present observations of the J = 1 – 0 transition lines of 12CO, 13CO, and C18O toward the Galactic region of 153.°60 ≤ l ≤ 156.°50 and 1.°85 ≤ b ≤ 3.°50, using the Purple Mountain Observatory 13.7 m millimeter telescope. Based on the 13CO data, one main filament and five subfilaments are found together as a network structure in the velocity interval of [−42.5, −30.0] km s−1. The kinematic distance of this molecular cloud is estimated to be ∼4.5 kpc. The median length, width, excitation temperature, and line mass of these filaments are ∼49 pc, ∼2.9 pc, ∼8.9 K, and ∼39 M ⊙ pc−1, respectively. The velocity structures along these filaments exhibit oscillatory patterns, which are likely caused by the fragmentation or accretion process along these filaments. The maximum accretion rate is estimated to be ∼700 M ⊙ pc−1. A total of ∼162 13CO clumps and ∼103 young stellar objects are identified in this region. Most of the clumps are in gravitationally bound states. Three H ii regions (G154.359+2.606, SH2-211, and SH2-212) are found to be located in the apexes of the filaments. Intense star-forming activity is found along the entire filamentary cloud. The observed results may help us to better understand the link between filaments and massive star formation.

show abstract

“…Large-scale molecular filaments, with lengths of order 100 pc, play an important role in both star formation and Galactic structure. A number of large-scale molecular filaments were found in the past decade (see, e.g., Jackson et al 2010;Li et al 2013;Ragan et al 2014;Zucker et al 2015;Wang et al 2015Wang et al , 2016Abreu-Vicente et al 2016;Li et al 2016;Du et al 2017;Colombo et al 2021;Guo et al 2021). Depending on searching tracers and identifying methods, these filaments have various properties and can be generally divided into "giant molecular filaments" (GMFs; e.g., Ragan et al 2014;Abreu-Vicente et al 2016) and "bone-like" filaments (e.g., Wang et al 2015;Zucker et al 2015) two groups 7 (see properties summarized by Zucker et al 2018).…”

Section: The Origin Of the Cassiopeia Filament: A Spur Of The Local Armmentioning

confidence: 99%

The Cassiopeia Filament: A Blown Spur of the Local Arm

Chen

Sun

Feng

et al. 2022

Self Cite

View full text Add to dashboard Cite

We present wide-field and high-sensitivity CO(1–0) molecular line observations toward the Cassiopeia region, using the 13.7 m millimeter telescope of the Purple Mountain Observatory. The CO observations reveal a large-scale highly filamentary molecular cloud within the Galactic region of 132.°0 ≥ l ≥ 122.°0 and −1.°0 ≤ b ≤ 3.°0 and the velocity range from approximately +1 to +4 km s−1. The measured length of the large-scale filament, referred to as the Cassiopeia Filament, is ∼390 pc. The observed properties of the Cassiopeia Filament, such as length, column density, and velocity gradient, are consistent with those synthetic large-scale filaments in the inter-arm regions. Based on its observed properties and location on the Galactic plane, we suggest that the Cassiopeia Filament is a spur of the Local arm, which is formed due to the galactic shear. The western end of the Cassiopeia Filament shows a giant arc-like molecular gas shell, which extends in the velocity range from roughly −1 to +7 km s−1. Finger-like structures, with systematic velocity gradients, are detected in the shell. The CO kinematics suggest that the large shell is expanding at a velocity of ∼6.5 km s−1. Both the shell and finger-like structures outline a giant bubble with a radius of ∼16 pc, which is likely produced by the stellar wind from the progenitor star of a supernova remnant. The observed spectral line widths suggest that the whole Cassiopeia Filament was quiescent initially until its west part was blown by the stellar wind and became supersonically turbulent.

show abstract

A Wide-field CO Survey toward the California Molecular Filament

Cited by 11 publications

References 64 publications

On the Spatial Distribution of ¹³CO Structures within ¹²CO Molecular Clouds

On the Spatial Distribution of ¹³CO Structures within ¹²CO Molecular Clouds

CO(J = 1 – 0) Observations toward the Filamentary Cloud in the Galactic Region of 153.°60 ≤ l ≤ 156.°50 and 1.°85 ≤ b ≤ 3.°50

The Cassiopeia Filament: A Blown Spur of the Local Arm

Contact Info

Product

Resources

About

A Wide-field CO Survey toward the California Molecular Filament

Cited by 11 publications

References 64 publications

On the Spatial Distribution of 13CO Structures within 12CO Molecular Clouds

On the Spatial Distribution of 13CO Structures within 12CO Molecular Clouds

CO(J = 1 – 0) Observations toward the Filamentary Cloud in the Galactic Region of 153.°60 ≤ l ≤ 156.°50 and 1.°85 ≤ b ≤ 3.°50

The Cassiopeia Filament: A Blown Spur of the Local Arm

Contact Info

Product

Resources

About

On the Spatial Distribution of ¹³CO Structures within ¹²CO Molecular Clouds

On the Spatial Distribution of ¹³CO Structures within ¹²CO Molecular Clouds