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Hauptverfasser: Li, Zihao, Cai, Zheng, Wang, Xin, Li, Zhaozhou, Dekel, Avishai, Sarkar, Kartick C., Bañados, Eduardo, Bian, Fuyan, Bhowmick, Aklant K., Blecha, Laura, Bosman, Sarah E. I., Champagne, Jaclyn B., Fan, Xiaohui, Golden-Marx, Emmet, Jun, Hyunsung D., Li, Mingyu, Lin, Xiaojing, Liu, Weizhe, Sun, Fengwu, Trebitsch, Maxime, Walter, Fabian, Wang, Feige, Wu, Yunjing, Yang, Jinyi, Zhang, Huanian, Zhang, Shiwu, Zhuang, Mingyang, Zou, Siwei
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2506.12129
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author Li, Zihao
Cai, Zheng
Wang, Xin
Li, Zhaozhou
Dekel, Avishai
Sarkar, Kartick C.
Bañados, Eduardo
Bian, Fuyan
Bhowmick, Aklant K.
Blecha, Laura
Bosman, Sarah E. I.
Champagne, Jaclyn B.
Fan, Xiaohui
Golden-Marx, Emmet
Jun, Hyunsung D.
Li, Mingyu
Lin, Xiaojing
Liu, Weizhe
Sun, Fengwu
Trebitsch, Maxime
Walter, Fabian
Wang, Feige
Wu, Yunjing
Yang, Jinyi
Zhang, Huanian
Zhang, Shiwu
Zhuang, Mingyang
Zou, Siwei
author_facet Li, Zihao
Cai, Zheng
Wang, Xin
Li, Zhaozhou
Dekel, Avishai
Sarkar, Kartick C.
Bañados, Eduardo
Bian, Fuyan
Bhowmick, Aklant K.
Blecha, Laura
Bosman, Sarah E. I.
Champagne, Jaclyn B.
Fan, Xiaohui
Golden-Marx, Emmet
Jun, Hyunsung D.
Li, Mingyu
Lin, Xiaojing
Liu, Weizhe
Sun, Fengwu
Trebitsch, Maxime
Walter, Fabian
Wang, Feige
Wu, Yunjing
Yang, Jinyi
Zhang, Huanian
Zhang, Shiwu
Zhuang, Mingyang
Zou, Siwei
contents The galaxy gas-phase metallicity gradients have been extensively studied over the past four decades, both in the local and high-redshift universe, as they trace the baryon cycle and growth of galaxies. With the unprecedented spatial resolution and sensitivity of JWST, it is now possible to measure metallicity and its radial gradients out to redshifts as high as $z = 9$. Here, we present a sample of 455 spectroscopically confirmed galaxies from redshifts $1.7 \lesssim z \lesssim 9$ that are spatially resolved on sub-kiloparsec (kpc) scales by deep JWST NIRCam or NIRISS Wide Field Slitless Spectroscopy (WFSS). Synthesizing these new JWST observations with legacy observations from the literature, we observe that at redshift $z > 5$, galaxy centers are more metal-rich, exhibiting negative metallicity gradients of $\sim-0.4$ dex kpc$^{-1}$. These gradients flatten over time, reaching near-zero around $z \approx 2$, coinciding with the peak of the cosmic star formation rate. Beyond this point, the gradients become negative again at lower redshifts approaching $z=0$. This evolution likely reflects transitions in galaxy formation modes: an inside-out growth phase dominated by intense central star formation with inefficient feedback and limited gas mixing during ``cosmic dawn", enhanced gas mixing due to feedback-driven wind and gas accretion at ``cosmic noon", and a later phase of slow evolution and reduced feedback toward the present day. These physical processes, including gas accretion and feedback, not only regulate star and galaxy formation on a cosmic scale but also shape the evolutionary pathways of individual galaxies over cosmic time.
format Preprint
id arxiv_https___arxiv_org_abs_2506_12129
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A 13-Billion-Year View of Galaxy Growth: Metallicity Gradient Evolution from the Local Universe to $z=9$ with JWST and Archival Surveys
Li, Zihao
Cai, Zheng
Wang, Xin
Li, Zhaozhou
Dekel, Avishai
Sarkar, Kartick C.
Bañados, Eduardo
Bian, Fuyan
Bhowmick, Aklant K.
Blecha, Laura
Bosman, Sarah E. I.
Champagne, Jaclyn B.
Fan, Xiaohui
Golden-Marx, Emmet
Jun, Hyunsung D.
Li, Mingyu
Lin, Xiaojing
Liu, Weizhe
Sun, Fengwu
Trebitsch, Maxime
Walter, Fabian
Wang, Feige
Wu, Yunjing
Yang, Jinyi
Zhang, Huanian
Zhang, Shiwu
Zhuang, Mingyang
Zou, Siwei
Astrophysics of Galaxies
The galaxy gas-phase metallicity gradients have been extensively studied over the past four decades, both in the local and high-redshift universe, as they trace the baryon cycle and growth of galaxies. With the unprecedented spatial resolution and sensitivity of JWST, it is now possible to measure metallicity and its radial gradients out to redshifts as high as $z = 9$. Here, we present a sample of 455 spectroscopically confirmed galaxies from redshifts $1.7 \lesssim z \lesssim 9$ that are spatially resolved on sub-kiloparsec (kpc) scales by deep JWST NIRCam or NIRISS Wide Field Slitless Spectroscopy (WFSS). Synthesizing these new JWST observations with legacy observations from the literature, we observe that at redshift $z > 5$, galaxy centers are more metal-rich, exhibiting negative metallicity gradients of $\sim-0.4$ dex kpc$^{-1}$. These gradients flatten over time, reaching near-zero around $z \approx 2$, coinciding with the peak of the cosmic star formation rate. Beyond this point, the gradients become negative again at lower redshifts approaching $z=0$. This evolution likely reflects transitions in galaxy formation modes: an inside-out growth phase dominated by intense central star formation with inefficient feedback and limited gas mixing during ``cosmic dawn", enhanced gas mixing due to feedback-driven wind and gas accretion at ``cosmic noon", and a later phase of slow evolution and reduced feedback toward the present day. These physical processes, including gas accretion and feedback, not only regulate star and galaxy formation on a cosmic scale but also shape the evolutionary pathways of individual galaxies over cosmic time.
title A 13-Billion-Year View of Galaxy Growth: Metallicity Gradient Evolution from the Local Universe to $z=9$ with JWST and Archival Surveys
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2506.12129