用 HST/COS 测量残余行星系统作为主序质量函数的约束条件

Lou Baya Ould Rouis, J. J. Hermes, Boris T. Gänsicke, Snehalata Sahu, Detlev Koester, P.-E. Tremblay, Dimitri Veras, Jay Farihi, Tyler M. Heintz, Nicola Pietro Gentile Fusillo and Seth Redfield
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摘要

白矮星是主序上质量小于 8 M⊙的恒星的后代,它提供了一种独特的方法来确定中等质量恒星(光谱型 BAF)周围行星的发生率,否则径向速度或凌日巡天就很难测量这些行星。我们更新了对哈勃太空望远镜收集到的 250 多份热白矮星(13,000 K < Teff < 30,000 K)、年轻白矮星(小于 800 Myr)紫外光谱的分析,结果表明,40% 以上的白矮星显示出光层硅,有时还显示出碳,这是存在残余行星系统的标志。然而,对于大质量白矮星(MWD > 0.8 M⊙),即主序列中质量大于 3.5 M⊙的恒星的后代,含有金属的白矮星比例明显下降,只有%的白矮星显示出金属污染。相比之下,44%±6%的白矮星子集(MWD < 0.7 M⊙)没有受到辐射悬浮的影响,正在积极地吸积行星碎片。虽然大质量白矮星的数量预计会受到双星演化结果的影响,但我们并没有发现合并残余物会广泛地影响我们的样本。我们将测得的大质量白矮星金属污染发生率与主序上质量大于 3.5 M⊙的恒星周围行星形成和生存的经验约束联系起来。
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Constraints on Remnant Planetary Systems as a Function of Main-sequence Mass with HST/COS
As the descendants of stars with masses less than 8 M⊙ on the main sequence, white dwarfs provide a unique way to constrain planetary occurrence around intermediate-mass stars (spectral types BAF) that are otherwise difficult to measure with radial-velocity or transit surveys. We update the analysis of more than 250 ultraviolet spectra of hot (13,000 K < Teff < 30,000 K), young (less than 800 Myr) white dwarfs collected by the Hubble Space Telescope, which reveals that more than 40% of all white dwarfs show photospheric silicon and sometimes carbon, signposts for the presence of remnant planetary systems. However, the fraction of white dwarfs with metals significantly decreases for massive white dwarfs (MWD > 0.8 M⊙), descendants of stars with masses greater than 3.5 M⊙ on the main sequence, as just % exhibit metal pollution. In contrast, 44% ± 6% of a subset of white dwarfs (MWD < 0.7 M⊙) unbiased by the effects of radiative levitation are actively accreting planetary debris. While the population of massive white dwarfs is expected to be influenced by the outcome of binary evolution, we do not find merger remnants to broadly affect our sample. We connect our measured occurrence rates of metal pollution on massive white dwarfs to empirical constraints of planetary formation and survival around stars with masses greater than 3.5 M⊙ on the main sequence.
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