机构地区:[1]Department of Astronomy,Peking University [2]Kavli Institute for Astronomy and Astrophysics,Peking University [3]Nanjing Institute of Astronomical Optics & Technology,National Astronomical Observatories,Chinese Academy of Sciences [4]Key Laboratory of Optical Astronomy,National Astronomical Observatories,Chinese Academy of Sciences
出 处:《Research in Astronomy and Astrophysics》2015年第8期1240-1263,共24页天文和天体物理学研究(英文版)
基 金:supported by the National Key Basic Research Program of China (2014CB845700);the National Natural Science Foundation of China (Grant No. 11473001)
摘 要:Using a sample of over 70 000 red clump(RC) stars with 5%–10% distance accuracy selected from the LAMOST Spectroscopic Survey of the Galactic Anti-center(LSS-GAC), we study the radial and vertical gradients of the Galactic disk(s) mainly in the anti-center direction, covering a significant volume of the disk in the range of projected Galactocentric radius 7 ≤ RGC ≤ 14 kpc and height from the Galactic midplane 0 ≤ |Z | ≤ 3 kpc. Our analysis shows that both the radial and vertical metallicity gradients are negative across much of the volume of the disk that is probed, and they exhibit significant spatial variations. Near the solar circle(7 ≤ RGC ≤ 11.5 kpc), the radial gradient has a moderately steep, negative slope of-0.08 dex kpc-1near the midplane(|Z | 〈 0.1 kpc), and the slope flattens with increasing |Z |. In the outer disk(11.5 〈 RGC ≤ 14 kpc), the radial gradients have an essentially constant, much less steep slope of-0.01 dex kpc-1at all heights above the plane, suggesting that the outer disk may have experienced an evolutionary path different from that of the inner disk. The vertical gradients are found to flatten largely with increasing RGC. However, the vertical gradient of the lower disk(0 ≤ |Z | ≤ 1 kpc)is found to flatten with RGC quicker than that of the upper disk(1 〈 |Z | ≤ 3 kpc).Our results should provide strong constraints on the theory of disk formation and evolution, as well as the underlying physical processes that shape the disk(e.g. gas flows,radial migration, and internal and external perturbations).Using a sample of over 70 000 red clump(RC) stars with 5%–10% distance accuracy selected from the LAMOST Spectroscopic Survey of the Galactic Anti-center(LSS-GAC), we study the radial and vertical gradients of the Galactic disk(s) mainly in the anti-center direction, covering a significant volume of the disk in the range of projected Galactocentric radius 7 ≤ RGC ≤ 14 kpc and height from the Galactic midplane 0 ≤ |Z | ≤ 3 kpc. Our analysis shows that both the radial and vertical metallicity gradients are negative across much of the volume of the disk that is probed, and they exhibit significant spatial variations. Near the solar circle(7 ≤ RGC ≤ 11.5 kpc), the radial gradient has a moderately steep, negative slope of-0.08 dex kpc-1near the midplane(|Z | 〈 0.1 kpc), and the slope flattens with increasing |Z |. In the outer disk(11.5 〈 RGC ≤ 14 kpc), the radial gradients have an essentially constant, much less steep slope of-0.01 dex kpc-1at all heights above the plane, suggesting that the outer disk may have experienced an evolutionary path different from that of the inner disk. The vertical gradients are found to flatten largely with increasing RGC. However, the vertical gradient of the lower disk(0 ≤ |Z | ≤ 1 kpc)is found to flatten with RGC quicker than that of the upper disk(1 〈 |Z | ≤ 3 kpc).Our results should provide strong constraints on the theory of disk formation and evolution, as well as the underlying physical processes that shape the disk(e.g. gas flows,radial migration, and internal and external perturbations).
关 键 词:Galaxy: abundances—Galaxy: disk—Galaxy: evolution—Galaxy: formation—techniques: spectroscopic
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