Naoko Sato scite author profile

Aims. We characterize the molecular gas content (ISM cold phase) using CO emission of a redshift-limited subsample of isolated galaxies from the AMIGA (Analysis of the interstellar Medium of Isolated GAlaxies) project in order to provide a comparison sample for studies of galaxies in different environments. Methods. We present the 12 CO(1-0) data for 273 AMIGA galaxies, most of them (n = 186) from our own observations with the IRAM 30 m and the FCRAO 14 m telescopes and the rest from the literature. We constructed a redshift-limited sample containing galaxies with 1500 km s −1 < v < 5000 km s −1 and excluded objects with morphological evidence of possible interaction. This sample (n = 173) is the basis for our statistical analysis. It contains galaxies with molecular gas masses, M H 2 , in the range of ∼10 8 −10 10 M . It is dominated, both in absolute number and in detection rate, by spiral galaxies of type T = 3-5 (Sb-Sc). Most galaxies were observed with a single pointing towards their centers. Therefore, we performed an extrapolation to the total molecular gas mass expected in the entire disk based on the assumption of an exponential distribution. We then studied the relationships between M H 2 and other galactic properties The molecular and the atomic gas masses of our sample show no strong correlation. We find a low mean value, log(M H 2 /M HI ) = −0.7 (for T = 3-5), and a strong decrease in this ratio with morphological type. The molecular gas column density and the surface density of the star formation rate (the Kennicutt-Schmidt law) show a tight correlation with a rough unity slope. We compare the relations of M H 2 with L B and L K found for AMIGA galaxies to samples of interacting galaxies from the literature and find an indication for an enhancement of the molecular gas in interacting galaxies of up to 0.2-0.3 dex.

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Nobeyama CO Atlas of Nearby Spiral Galaxies: Distribution of Molecular Gas in Barred and Nonbarred Spiral Galaxies

Kuno¹,

Sato²,

Nakanishi³

et al. 2007

187

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The data from a CO(1 -0) mapping survey of 40 nearby spiral galaxies performed with the Nobeyama 45-m telescope are presented. The criteria of the sample selection were (1) RC3 morphological type in the range Sa to Scd, (2) distance less than 25 Mpc, (3) inclination angle less than 79 • (RC3), (4) flux at 100 µm higher than ∼ 10 Jy, (5) spiral structure is not destroyed by interaction. The maps of CO cover most of the optical disk of the galaxies. We investigated the influence of bar on the distribution of molecular gas in spiral galaxies using these data. We confirmed that the degree of central concentration is higher in barred spirals than in non-barred spirals as shown by the previous works. Furthermore, we present an observational evidence that bars are efficient in driving molecular gas that lies within the bar length toward the center, while the role in bringing gas in from the outer parts of the disks is small. The transported gas accounts for about half of molecular gas within the central region in barred spiral galaxies. We found a correlation between the degree of central concentration and bar strength. Galaxies with stronger bars tend to have higher central concentration. The correlation implies that stronger bars accumulate molecular gas toward the center more efficiently. These results are consistent with long-lived bars.

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Giant Molecular Clouds in the Spiral Arm of Ic 342

Hirota

Kuno

Sato

et al. 2011

ApJ

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We present results of 12 CO (1-0) and 13 CO (1-0) observations of the northeastern spiral arm segment of IC 342 with a ∼ 50pc resolution carried out with the Nobeyama Millimeter Array. Zerospacing components were recovered by combining with the existing data taken with the Nobeyama 45m telescope. The objective of this study is to investigate the variation of cloud properties across the spiral arm with a resolution comparable to the size of giant molecular clouds (GMCs). The observations cover a 1 kpc × 1.5 kpc region located ∼ 2 kpc away from the galactic center, where a giant molecular association is located at trailing side and associated star forming regions at leading side. The spiral arm segment was resolved into a number of clouds whose size, temperature and surface mass density are comparable to typical GMCs in the Galaxy. Twenty-six clouds were identified from the combined data cube and the identified clouds followed the line width-size relation of the Galactic GMCs. The identified GMCs were divided into two categories according to whether they are associated with star formation activity or not. Comparison between both categories indicated that the active GMCs are more massive, have smaller line width, and are closer to virial equilibrium compared to the quiescent GMCs. These variations of the GMC properties suggest that dissipation of excess kinetic energy of GMC is a required condition for the onset of massive star formation.

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Emergence of a Narrow H₂O Maser Feature in NGC 1052

Kameno

Nakai

Sawada-Satoh

et al. 2005

ApJ

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Nobeyama CO Atlas of Nearby Spiral Galaxies

Kuno

Sato

Nakanishi

et al. 2008

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Naoko Sato

The AMIGA sample of isolated galaxies

Nobeyama CO Atlas of Nearby Spiral Galaxies: Distribution of Molecular Gas in Barred and Nonbarred Spiral Galaxies

Giant Molecular Clouds in the Spiral Arm of Ic 342

Emergence of a Narrow H₂O Maser Feature in NGC 1052

Nobeyama CO Atlas of Nearby Spiral Galaxies

Contact Info

Product

Resources

About

Naoko Sato

The AMIGA sample of isolated galaxies

Nobeyama CO Atlas of Nearby Spiral Galaxies: Distribution of Molecular Gas in Barred and Nonbarred Spiral Galaxies

Giant Molecular Clouds in the Spiral Arm of Ic 342

Emergence of a Narrow H2O Maser Feature in NGC 1052

Nobeyama CO Atlas of Nearby Spiral Galaxies

Contact Info

Product

Resources

About

Emergence of a Narrow H₂O Maser Feature in NGC 1052