PAMS: The Perseus Arm Molecular Survey–I. Survey description and first results

Andrew J Rigby; Mark A Thompson; David J Eden; Toby J T Moore; Mubela Mutale; Nicolas Peretto; Rene Plume; James S Urquhart; Gwenllian M Williams; Malcolm J Currie

doi:10.1093/mnras/staf278

PAMS: The Perseus Arm Molecular Survey–I. Survey description and first results

Andrew J Rigby, Mark A Thompson, David J Eden, Toby J T Moore, Mubela Mutale, Nicolas Peretto, Rene Plume, James S Urquhart, Gwenllian M Williams, Malcolm J Currie

Department of Physics

Research output: Contribution to journal › Article › peer-review

Abstract

The external environments surrounding molecular clouds vary widely across galaxies such as the Milky Way, and statistical samples of clouds are required to understand them. We present the Perseus Arm Molecular Survey (PAMS), a James Clerk Maxwell Telescope (JCMT) survey combining new and archival data of molecular-cloud complexes in the outer Perseus spiral arm in ¹²CO, ¹³CO, and C ¹⁸O (J = 3–2). With a survey area of ∼8 deg ², PAMS covers well-known complexes such as W3, W5, and NGC 7538 with two fields at l ≈ 110 ^◦ and l ≈ 135 ^◦. PAMS has an effective resolution of 17 arcsec, and rms sensitivity of T _mb = 0.7–1.0 K in 0.3 km s ⁻¹ channels. Here we present a first look at the data, and compare the PAMS regions in the Outer Galaxy with Inner Galaxy regions from the CO Heterodyne Inner Milky Way Plane Survey (CHIMPS). By comparing the various CO data with maps of H ₂ column density from Herschel, we calculate representative values for the CO-to-H ₂ column-density X-factors, which are X12 _{CO (3−2)} = 4.0 × 10 ²⁰ and X13 _{CO (3−2)} = 4.0 × 10 ²¹ cm ⁻² (K km s ⁻¹) ⁻¹ with a factor of 1.5 uncertainty. We find that the emission profiles, size–linewidth, and mass–radius relationships of ¹³CO-traced structures are similar between the Inner and Outer Galaxy. Although PAMS sources are slightly more massive than their Inner Galaxy counterparts for a given size scale, the discrepancy can be accounted for by the Galactic gradient in gas-to-dust mass ratio, uncertainties in the X-factors, and selection biases. We have made the PAMS data publicly available, complementing other CO surveys targeting different regions of the Galaxy in different isotopologues and transitions.

Original language	English
Pages (from-to)	198-222
Number of pages	25
Journal	Monthly Notices of the Royal Astronomical Society
Volume	538
Issue number	1
Early online date	19 Feb 2025
DOIs	https://doi.org/10.1093/mnras/staf278
Publication status	Published - 1 Mar 2025

Funding

We would like to thank the anonymous referee whose review helped us to improve the quality and accuracy of the manuscript. We thank Andrea Giannetti for a thoughtful discussion about gas-to-dust mass ratios. AJR acknowledges postdoctoral support from the University of Leeds. The JCMT is operated by the East Asian Observatory on behalf of The National Astronomical Observatory of Japan; Academia Sinica Institute of Astronomy and Astrophysics; the Korea Astronomy and Space Science Institute; the National Astronomical Research Institute of Thailand; Center for Astronomical Mega-Science (as well as the National Key R&D Programme of China with No. 2017YFA0402700). Additional funding support is provided by the Science and Technology Facilities Council of the United Kingdom and participating universities and organizations in the United Kingdom and Canada. The JCMT has historically been operated by the Joint Astronomy Centre on behalf of the Science and Technology Facilities Council of the United Kingdom, the National Research Council of Canada and the Netherlands Organisation for Scientific Research. The authors wish to recognize and acknowledge the very significant cultural role and reverence that the summit of Maunakea has always had within the indigenous Hawaiian community. We are most fortunate to have the opportunity to conduct observations from this mountain. This research used the facilities of the Canadian Astronomy Data Centre operated by the National Research Council of Canada with the support of the Canadian Space Agency. This research has made use of NASA\u2019s Astrophysics Data System Bibliographic Services\u2019.

Funders	Funder number
National Astronomical Research Institute of Thailand
Nederlandse Organisatie voor Wetenschappelijk Onderzoek
Academia Sinica Institute of Astronomy and Astrophysics
University of Leeds
Canadian Space Agency
Science and Technology Facilities Council of the United Kingdom
Center for Astronomical Mega-Science
National Research Council Canada
Korea Astronomy and Space Science Institute
National Key Research and Development Program of China	2017YFA0402700

Keywords

ISM: clouds
galaxies: ISM
molecular data
stars: formation
submillimetre: ISM
surveys

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnras/staf278Licence: CC BY

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title = "PAMS: The Perseus Arm Molecular Survey–I. Survey description and first results",

abstract = "The external environments surrounding molecular clouds vary widely across galaxies such as the Milky Way, and statistical samples of clouds are required to understand them. We present the Perseus Arm Molecular Survey (PAMS), a James Clerk Maxwell Telescope (JCMT) survey combining new and archival data of molecular-cloud complexes in the outer Perseus spiral arm in 12CO, 13CO, and C 18O (J = 3–2). With a survey area of ∼8 deg 2, PAMS covers well-known complexes such as W3, W5, and NGC 7538 with two fields at l ≈ 110 ◦ and l ≈ 135 ◦. PAMS has an effective resolution of 17 arcsec, and rms sensitivity of T mb = 0.7–1.0 K in 0.3 km s −1 channels. Here we present a first look at the data, and compare the PAMS regions in the Outer Galaxy with Inner Galaxy regions from the CO Heterodyne Inner Milky Way Plane Survey (CHIMPS). By comparing the various CO data with maps of H 2 column density from Herschel, we calculate representative values for the CO-to-H 2 column-density X-factors, which are X12 CO (3−2) = 4.0 × 10 20 and X13 CO (3−2) = 4.0 × 10 21 cm −2 (K km s −1) −1 with a factor of 1.5 uncertainty. We find that the emission profiles, size–linewidth, and mass–radius relationships of 13CO-traced structures are similar between the Inner and Outer Galaxy. Although PAMS sources are slightly more massive than their Inner Galaxy counterparts for a given size scale, the discrepancy can be accounted for by the Galactic gradient in gas-to-dust mass ratio, uncertainties in the X-factors, and selection biases. We have made the PAMS data publicly available, complementing other CO surveys targeting different regions of the Galaxy in different isotopologues and transitions.",

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author = "Rigby, {Andrew J} and Thompson, {Mark A} and Eden, {David J} and Moore, {Toby J T} and Mubela Mutale and Nicolas Peretto and Rene Plume and Urquhart, {James S} and Williams, {Gwenllian M} and Currie, {Malcolm J}",

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AU - Rigby, Andrew J

AU - Thompson, Mark A

AU - Eden, David J

AU - Moore, Toby J T

AU - Mutale, Mubela

AU - Peretto, Nicolas

AU - Plume, Rene

AU - Urquhart, James S

AU - Williams, Gwenllian M

AU - Currie, Malcolm J

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AB - The external environments surrounding molecular clouds vary widely across galaxies such as the Milky Way, and statistical samples of clouds are required to understand them. We present the Perseus Arm Molecular Survey (PAMS), a James Clerk Maxwell Telescope (JCMT) survey combining new and archival data of molecular-cloud complexes in the outer Perseus spiral arm in 12CO, 13CO, and C 18O (J = 3–2). With a survey area of ∼8 deg 2, PAMS covers well-known complexes such as W3, W5, and NGC 7538 with two fields at l ≈ 110 ◦ and l ≈ 135 ◦. PAMS has an effective resolution of 17 arcsec, and rms sensitivity of T mb = 0.7–1.0 K in 0.3 km s −1 channels. Here we present a first look at the data, and compare the PAMS regions in the Outer Galaxy with Inner Galaxy regions from the CO Heterodyne Inner Milky Way Plane Survey (CHIMPS). By comparing the various CO data with maps of H 2 column density from Herschel, we calculate representative values for the CO-to-H 2 column-density X-factors, which are X12 CO (3−2) = 4.0 × 10 20 and X13 CO (3−2) = 4.0 × 10 21 cm −2 (K km s −1) −1 with a factor of 1.5 uncertainty. We find that the emission profiles, size–linewidth, and mass–radius relationships of 13CO-traced structures are similar between the Inner and Outer Galaxy. Although PAMS sources are slightly more massive than their Inner Galaxy counterparts for a given size scale, the discrepancy can be accounted for by the Galactic gradient in gas-to-dust mass ratio, uncertainties in the X-factors, and selection biases. We have made the PAMS data publicly available, complementing other CO surveys targeting different regions of the Galaxy in different isotopologues and transitions.

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ER -

PAMS: The Perseus Arm Molecular Survey–I. Survey description and first results

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