Do spiral arms enhance star formation efficiency?

Querejeta, Miguel; Leroy, Adam K.; Meidt, Sharon E.; Schinnerer, Eva; Belfiore, Francesco; Emsellem, Eric; Klessen, Ralf S.; Sun, Jiayi; Sormani, Mattia; Bešlić, Ivana; Cao, Yixian; Chevance, Mélanie; Colombo, Dario; Dale, Daniel A.; García-Burillo, Santiago; Glover, Simon C. O.; Grasha, Kathryn; Groves, Brent; Koch, Eric. W.; Neumann, Lukas; Pan, Hsi-An; Pessa, Ismael; Pety, Jérôme; Pinna, Francesca; Ramambason, Lise; Razza, Alessandro; Romanelli, Andrea; Rosolowsky, Erik; Ruiz-García, Marina; Sánchez-Blázquez, Patricia; Smith, Rowan; Stuber, Sophia; Ubeda, Leonardo; Usero, Antonio; Williams, Thomas G.

doi:10.1051/0004-6361/202449733

A&A

2024

DOI: 10.1051/0004-6361/202449733

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Do spiral arms enhance star formation efficiency?

Miguel Querejeta,

Adam K. Leroy,

Sharon E. Meidt

et al.

Abstract: Spiral arms, as those of our own Milky Way, are some of the most spectacular features in disc galaxies. It has been argued that star formation should proceed more efficiently in spiral arms as a result of gas compression. Yet, observational studies have so far yielded contradictory results. Here, we examine arm/interarm surface density contrasts at sim 100\,pc resolution in 28 spiral galaxies from the PHANGS survey. We find that the arm AND interarm contrast in stellar mass surface density ($ is very modest, t… Show more

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Cited by 3 publications

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Dynamical resonances in PHANGS galaxies

Ruiz-García,

Querejeta,

García-Burillo

et al. 2024

A&A

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Bars are remarkable stellar structures that can transport gas toward centers and drive the secular evolution of galaxies. In this context, it is important to locate dynamical resonances associated with bars. For this study, we used Spitzer near-infrared images as a proxy for the stellar gravitational potential and the ALMA CO(J=2-1) gas distribution from the PHANGS survey to determine the position of the main dynamical resonances associated with the bars in the PHANGS sample of 74 nearby star-forming galaxies. We used the gravitational torque method to estimate the location of the bar corotation radius ($R_ CR $), where stars and gas rotate at the same angular velocity as the bar. Of the 46 barred galaxies in PHANGS, we have successfully determined the corotation (CR) for 38 of them. The mean ratio of the $R_ CR $ to the bar radius ($R_ bar $) is $ R = R_ CR /R_ bar = 1.12$, with a standard deviation of $0.39$. This is consistent with the average value expected from theory and suggests that bars are predominantly fast. We also compared our results with other bar CR measurements from the literature, which employ different methods, and find good agreement ($ = 0.64$). Finally, using rotation curves, we have estimated other relevant resonances such as the inner Lindblad resonance (ILR) and the outer Lindblad resonance (OLR), which are often associated with rings. This work provides a useful catalog of resonances for a large sample of nearby galaxies and emphasizes the clear connection between bar dynamics and morphology.

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Dynamical resonances in PHANGS galaxies

Ruiz-García,

Querejeta,

García-Burillo

et al. 2024

A&A

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Molecular cloud matching in CO and dust in M33

Keilmann,

Kabanovic,

Schneider

et al. 2024

A&A

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Understanding the physical properties such as mass, size, and surface mass density of giant molecular clouds or associations (GMCs/GMAs) in galaxies is crucial for gaining deeper insights into the molecular cloud and star formation (SF) processes. We determine these quantities for the Local Group flocculent spiral galaxy M33 using Herschel dust and archival $^ CO(2-1) $ data from the IRAM 30m telescope, and compare them to GMC/GMA properties of the Milky Way derived from CO literature data. For M33, we apply the Dendrogram algorithm on a novel 2D dust-derived Nhtwo map at an angular resolution of $18.2''$ and on the $^ CO(2-1) $ data and employ an factor map instead of a constant value. Dust and CO-derived values are similar, with mean radii of $ for the dust and $ for CO respectively. However, the largest GMAs have a radius of around $150\,$pc, similar to what was found in the Milky Way and other galaxies, suggesting a physical process that limits the size of GMAs. The less massive and smaller M33 galaxy also hosts less massive and lower-density GMCs compared to the Milky Way by an order of magnitude. Notably, the most massive ($>$ a few $10^6\ M_ odot $) GMC population observed in the Milky Way is mainly missing in M33. The mean surface mass density of M33 is significantly smaller than that of the Milky Way and this is attributed to higher column densities of the largest GMCs in the Milky Way, despite similar GMC areas. We find no systematic gradients in physical properties with the galactocentric radius in M33. However, surface mass densities and masses are higher near the center, implying increased SF activity. In both galaxies, the central region contains $ of the total molecular mass. The index of the power-law spectrum of the GMC masses across the entire disk of M33 is $ and $ for dust- and CO-derived data, respectively. We conclude that GMC properties in M33 and the Milky Way are largely similar, though M33 lacks high-mass GMCs, for which there is no straightforward explanation. Additionally, GMC properties are only weakly dependent on the galactic environment, with stellar feedback playing a role that needs further investigation.

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The Role of Spiral Arms in Galaxies

Sun,

Calzetti,

Battisti

2024

ApJ

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We test the influence of spiral arms on the star formation activity of disk galaxies by constructing and fitting multiwavelength spectral energy distributions for the two nearby spiral galaxies NGC 628 and NGC 4321, at a spatial scale of 1–1.5 kpc. Recent results in the literature support the “gatherers” picture, i.e., that spiral arms gather material but do not trigger star formation. However, ambiguities in the diagnostics used to measure star formation rates (SFRs) and other quantities have hampered attempts at reaching definite conclusions. We approach this problem by utilizing the physical parameters output of the Multi-wavelength Analysis of Galaxy Physical Properties fitting code, which we apply to the ultraviolet-to-far infrared photometry, in ≥20 bands, of spatially resolved regions in the two galaxies. We separate the regions into arm and interarm, and study the distributions of the specific SFRs (sSFR = SFR/M star), stellar ages, and star formation efficiencies (SFE = SFR/M gas). We find that the distributions of these parameters in the arm regions are almost indistinguishable from those in the interarm regions, with typical differences of a factor of 2 or less in the medians. These results support the “gatherer” scenario of spiral arms, which we plan to test with a larger sample in the near future.

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Do spiral arms enhance star formation efficiency?

Cited by 3 publications

References 99 publications

Dynamical resonances in PHANGS galaxies

Dynamical resonances in PHANGS galaxies

Molecular cloud matching in CO and dust in M33

The Role of Spiral Arms in Galaxies

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