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Main Authors: Krahm, Grace, Leroy, Adam K., Sun, Jiayi, Yim, Kijeong, Koch, Eric W., Wong, Tony, Fisher, Deanne, Rosolowsky, Erik, Sandstrom, Karin, Utomo, Dyas, van de Sande, Jesse, Martig, Marie, Fraser-McKelvie, Amelia, Hayden, Michael R.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.14136
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author Krahm, Grace
Leroy, Adam K.
Sun, Jiayi
Yim, Kijeong
Koch, Eric W.
Wong, Tony
Fisher, Deanne
Rosolowsky, Erik
Sandstrom, Karin
Utomo, Dyas
van de Sande, Jesse
Martig, Marie
Fraser-McKelvie, Amelia
Hayden, Michael R.
author_facet Krahm, Grace
Leroy, Adam K.
Sun, Jiayi
Yim, Kijeong
Koch, Eric W.
Wong, Tony
Fisher, Deanne
Rosolowsky, Erik
Sandstrom, Karin
Utomo, Dyas
van de Sande, Jesse
Martig, Marie
Fraser-McKelvie, Amelia
Hayden, Michael R.
contents We present high-resolution (0.94" $\approx$ 55 pc) ALMA CO(2-1) and 13CO(2-1) observations of the highly inclined (i~87.5 deg) galaxy NGC 4565 covering out to galactocentric radius Rgal > $\pm$ 17 kpc. The combination of sensitivity and resolution enables the detection of CO emission well into the HI-dominated outer disk while isolating individual molecular clouds across the full extent of the galaxy. Although often described as an edge-on Milky Way analog, the molecular gas profile of NGC 4565 has a central gap which is more similar to M31. The 13CO/12CO ratio remains consistent at 0.086 $\pm$ 0.009 from Rgal = 5-13 kpc. Based on fits to position-velocity slices, the molecular disk remains thin, with a FWHM scale height of 79.1 $\pm$ 1.6 pc measured from the vertical intensity profile with little evidence for vertical flaring. Molecular clouds in NGC 4565 show sizes, linewidths, and surface densities consistent with those found in similar environments in PHANGS-ALMA galaxies and in M31. We identify a prominent star-forming complex on the ring-an overdensity of molecular gas we term the East Ring Pileup. This feature hosts a compact, multiwavelength-bright region, which we call the Jewel. Effects of galaxy inclination on molecular cloud radius, velocity dispersion, surface density, and virial parameter appear as second-order effects that are strongest in velocity dispersion. At this resolution, GMCs are preferentially aligned with the disk of the galaxy and horizontally elongated by a factor of~2.
format Preprint
id arxiv_https___arxiv_org_abs_2604_14136
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The Radial and Vertical Structure of Molecular Gas in the Edge-On Galaxy NGC 4565
Krahm, Grace
Leroy, Adam K.
Sun, Jiayi
Yim, Kijeong
Koch, Eric W.
Wong, Tony
Fisher, Deanne
Rosolowsky, Erik
Sandstrom, Karin
Utomo, Dyas
van de Sande, Jesse
Martig, Marie
Fraser-McKelvie, Amelia
Hayden, Michael R.
Astrophysics of Galaxies
We present high-resolution (0.94" $\approx$ 55 pc) ALMA CO(2-1) and 13CO(2-1) observations of the highly inclined (i~87.5 deg) galaxy NGC 4565 covering out to galactocentric radius Rgal > $\pm$ 17 kpc. The combination of sensitivity and resolution enables the detection of CO emission well into the HI-dominated outer disk while isolating individual molecular clouds across the full extent of the galaxy. Although often described as an edge-on Milky Way analog, the molecular gas profile of NGC 4565 has a central gap which is more similar to M31. The 13CO/12CO ratio remains consistent at 0.086 $\pm$ 0.009 from Rgal = 5-13 kpc. Based on fits to position-velocity slices, the molecular disk remains thin, with a FWHM scale height of 79.1 $\pm$ 1.6 pc measured from the vertical intensity profile with little evidence for vertical flaring. Molecular clouds in NGC 4565 show sizes, linewidths, and surface densities consistent with those found in similar environments in PHANGS-ALMA galaxies and in M31. We identify a prominent star-forming complex on the ring-an overdensity of molecular gas we term the East Ring Pileup. This feature hosts a compact, multiwavelength-bright region, which we call the Jewel. Effects of galaxy inclination on molecular cloud radius, velocity dispersion, surface density, and virial parameter appear as second-order effects that are strongest in velocity dispersion. At this resolution, GMCs are preferentially aligned with the disk of the galaxy and horizontally elongated by a factor of~2.
title The Radial and Vertical Structure of Molecular Gas in the Edge-On Galaxy NGC 4565
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2604.14136