Examining the Influence of the Regions on Star Formation Surface Density

We analyzed the star formation surface density (Σ SFR ) between the global and H ii regions in a sample of 69 low surface brightness galaxies (LSBGs) and 68 star-forming (SF) galaxies using data from the H α images. The conventional global Σ SFR , which is defined as the star formation rate (SFR) di...

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Published in	Publications of the Astronomical Society of the Pacific Vol. 135; no. 1052; pp. 104101 - 104120
Main Authors	Lei, Feng-jie, Wu, Hong
Format	Journal Article
Language	English
Published	Philadelphia The Astronomical Society of the Pacific 01.10.2023 IOP Publishing
Subjects	Galaxies Galaxy formation Star & galaxy formation Star brightness Star formation Stars Stars & galaxies
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Abstract	We analyzed the star formation surface density (Σ SFR ) between the global and H ii regions in a sample of 69 low surface brightness galaxies (LSBGs) and 68 star-forming (SF) galaxies using data from the H α images. The conventional global Σ SFR , which is defined as the star formation rate (SFR) divided by the area of the global galaxy, may not accurately describe the star formation activity in LSBGs due to the lower number of H ii regions compared to SF galaxies. To address this, we divide the global galaxy into two regions, the H ii region and the diffuse region, and then study the Σ SFR in each region. Our results show that both the SFR and area of the H ii regions in LSBGs are lower than those in SF galaxies, resulting in the H ii region’s Σ SFR (SFR/area) being slightly lower in LSBGs than in SF galaxies by 0.28 dex, although the global Σ SFR is at least an order of magnitude lower in LSBGs than in SF galaxies. Furthermore, a significant difference exists between the global and H ii regions in Σ SFR . In LSBGs, Σ SFR increased by 0.80 dex from the global region to the H ii region, while SF galaxies demonstrate a 0.54 dex increase, highlighting the crucial aspect of carefully selecting an appropriate aperture for Σ SFR calculations.
AbstractList	We analyzed the star formation surface density (Σ SFR ) between the global and H ii regions in a sample of 69 low surface brightness galaxies (LSBGs) and 68 star-forming (SF) galaxies using data from the H α images. The conventional global Σ SFR , which is defined as the star formation rate (SFR) divided by the area of the global galaxy, may not accurately describe the star formation activity in LSBGs due to the lower number of H ii regions compared to SF galaxies. To address this, we divide the global galaxy into two regions, the H ii region and the diffuse region, and then study the Σ SFR in each region. Our results show that both the SFR and area of the H ii regions in LSBGs are lower than those in SF galaxies, resulting in the H ii region’s Σ SFR (SFR/area) being slightly lower in LSBGs than in SF galaxies by 0.28 dex, although the global Σ SFR is at least an order of magnitude lower in LSBGs than in SF galaxies. Furthermore, a significant difference exists between the global and H ii regions in Σ SFR . In LSBGs, Σ SFR increased by 0.80 dex from the global region to the H ii region, while SF galaxies demonstrate a 0.54 dex increase, highlighting the crucial aspect of carefully selecting an appropriate aperture for Σ SFR calculations. We analyzed the star formation surface density (ΣSFR) between the global and H ii regions in a sample of 69 low surface brightness galaxies (LSBGs) and 68 star-forming (SF) galaxies using data from the Hα images. The conventional global ΣSFR, which is defined as the star formation rate (SFR) divided by the area of the global galaxy, may not accurately describe the star formation activity in LSBGs due to the lower number of H ii regions compared to SF galaxies. To address this, we divide the global galaxy into two regions, the H ii region and the diffuse region, and then study the ΣSFR in each region. Our results show that both the SFR and area of the H ii regions in LSBGs are lower than those in SF galaxies, resulting in the H ii region’s ΣSFR (SFR/area) being slightly lower in LSBGs than in SF galaxies by 0.28 dex, although the global ΣSFR is at least an order of magnitude lower in LSBGs than in SF galaxies. Furthermore, a significant difference exists between the global and H ii regions in ΣSFR. In LSBGs, ΣSFR increased by 0.80 dex from the global region to the H ii region, while SF galaxies demonstrate a 0.54 dex increase, highlighting the crucial aspect of carefully selecting an appropriate aperture for ΣSFR calculations.
Author	Lei, Feng-jie Wu, Hong
Author_xml	– sequence: 1 givenname: Feng-jie orcidid: 0000-0003-0408-5497 surname: Lei fullname: Lei, Feng-jie organization: Chinese Academy of Sciences CAS Key Laboratory of Optical Astronomy, National Astronomical Observatories, Beijing 100101, People’s Republic of China – sequence: 2 givenname: Hong orcidid: 0000-0002-4333-3994 surname: Wu fullname: Wu, Hong organization: University of Chinese Academy of Sciences School of Astronomy and Space Science, Beijing 100049, People’s Republic of China
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Snippet	We analyzed the star formation surface density (Σ SFR ) between the global and H ii regions in a sample of 69 low surface brightness galaxies (LSBGs) and 68... We analyzed the star formation surface density (ΣSFR) between the global and H ii regions in a sample of 69 low surface brightness galaxies (LSBGs) and 68...
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SubjectTerms	Galaxies Galaxy formation Star & galaxy formation Star brightness Star formation Stars Stars & galaxies
Title	Examining the Influence of the Regions on Star Formation Surface Density
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