Hugo Tranin, Nadejda Blagorodnova, Viraj Karambelkar, Paul J. Groot, Steven Bloemen, Paul M. Vreeswijk, Daniëlle L. A. Pieterse, Jan van Roestel
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Rubin<i/> Observatory’s Legacy Survey of Space and Time (LSST), this approach offers a new way to predict and select common envelope transients.<i>Aims.<i/> This study investigates potential progenitors and precursors of LRNe by analysing <i>Hubble<i/> Space Telescope (HST) photometry of stellar populations in galaxies within ∼20 Mpc to identify YSG candidates. Additionally, we use the <i>Zwicky<i/> Transient Facility and MeerLICHT/BlackGEM to identify possible precursors, preparing for future observations by the LSST.<i>Methods.<i/> We compiled a sample of 369 galaxies with HST exposures in the <i>F<i/> 475<i>W<i/>, <i>F<i/> 555<i>W<i/>, <i>F<i/> 606<i>W<i/>, and <i>F<i/>814<i>W<i/> filters. We identified YSG candidates using MESA stellar evolution tracks and statistical analysis of colour–magnitude diagrams.<i>Results.<i/> Our sample includes 154 494 YSG candidates with masses between 3 <i>M<i/><sub>⊙<sub/> and 20 <i>M<i/><sub>⊙<sub/> and is affected by various contaminants, notably foreground stars and extinguished main sequence stars. After excluding foreground stars using <i>Gaia<i/> proper motions, contamination is estimated at 1% from foreground stars (based on TRILEGAL simulations) and ∼20% from extinction affecting main sequence stars. Combining our YSG candidates with time-domain catalogues yielded several interesting candidates. In particular, we identified 12 LRN precursor candidates for which follow-up is encouraged.<i>Conclusions.<i/> We highlight the importance of monitoring future transients that match YSG candidates to avoid missing potential LRNe and other rare transients. 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Additionally, we use the <i>Zwicky<i/> Transient Facility and MeerLICHT/BlackGEM to identify possible precursors, preparing for future observations by the LSST.<i>Methods.<i/> We compiled a sample of 369 galaxies with HST exposures in the <i>F<i/> 475<i>W<i/>, <i>F<i/> 555<i>W<i/>, <i>F<i/> 606<i>W<i/>, and <i>F<i/>814<i>W<i/> filters. We identified YSG candidates using MESA stellar evolution tracks and statistical analysis of colour–magnitude diagrams.<i>Results.<i/> Our sample includes 154 494 YSG candidates with masses between 3 <i>M<i/><sub>⊙<sub/> and 20 <i>M<i/><sub>⊙<sub/> and is affected by various contaminants, notably foreground stars and extinguished main sequence stars. After excluding foreground stars using <i>Gaia<i/> proper motions, contamination is estimated at 1% from foreground stars (based on TRILEGAL simulations) and ∼20% from extinction affecting main sequence stars. Combining our YSG candidates with time-domain catalogues yielded several interesting candidates. 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引用次数: 0
摘要
上下文。在主序星阶段之后,质量大于2.5 M⊙的恒星在进入红巨星分支之前迅速演化为黄巨星和黄超巨星(ysg)。识别附近星系中的赫茨普龙隙恒星对于精确定位发光红新星(LRNe)的祖先至关重要,LRNe是归因于恒星合并的天体物理瞬态。在像Vera C. Rubin天文台的时空遗产巡天(LSST)这样的大规模瞬变观测时代,这种方法提供了一种预测和选择常见包络瞬变的新方法。本研究通过分析哈勃太空望远镜(HST)对~ 20 Mpc内星系中恒星群的光度测定,研究了LRNe的潜在祖先和前体,以确定YSG候选者。此外,我们使用Zwicky瞬态设施和MeerLICHT/BlackGEM来识别可能的前体,为将来使用LSST.Methods进行观测做准备。我们收集了369个星系的样本,这些星系在f475w、f555w、f606w和F814W滤镜下进行了HST曝光。我们使用MESA恒星演化轨迹和色星等图的统计分析来确定YSG候选者。我们的样本包括154 494颗质量在3 M⊙到20 M⊙之间的YSG候选者,它们受到各种污染物的影响,特别是前景恒星和熄灭的主序星。在使用盖亚固有运动排除前景星后,估计来自前景星的污染为1%(基于TRILEGAL模拟),来自主序星消光的污染为~ 20%。将我们的YSG候选者与时域目录相结合,产生了几个有趣的候选者。特别是,我们确定了12例LRN前体候选患者,鼓励随访。我们强调监测与YSG候选者匹配的未来瞬变的重要性,以避免遗漏潜在的LRNe和其他罕见的瞬变。LSST将在寻找LRN祖先和前体方面改变游戏规则;预计将在20mpc内发现30多万个新的YSG候选者和100个LRN前体。
Hertzsprung gap stars in nearby galaxies and the quest for luminous red nova progenitors
Context. After the main sequence phase, stars more massive than 2.5 M⊙ rapidly evolve through the Hertzsprung gap as yellow giants and yellow supergiants (YSGs) before settling into the red giant branch. Identifying Hertzsprung gap stars in nearby galaxies is crucial for pinpointing progenitors of luminous red novae (LRNe) – astrophysical transients attributed to stellar mergers. In the era of extensive transient surveys like the Vera C. Rubin Observatory’s Legacy Survey of Space and Time (LSST), this approach offers a new way to predict and select common envelope transients.Aims. This study investigates potential progenitors and precursors of LRNe by analysing Hubble Space Telescope (HST) photometry of stellar populations in galaxies within ∼20 Mpc to identify YSG candidates. Additionally, we use the Zwicky Transient Facility and MeerLICHT/BlackGEM to identify possible precursors, preparing for future observations by the LSST.Methods. We compiled a sample of 369 galaxies with HST exposures in the F 475W, F 555W, F 606W, and F814W filters. We identified YSG candidates using MESA stellar evolution tracks and statistical analysis of colour–magnitude diagrams.Results. Our sample includes 154 494 YSG candidates with masses between 3 M⊙ and 20 M⊙ and is affected by various contaminants, notably foreground stars and extinguished main sequence stars. After excluding foreground stars using Gaia proper motions, contamination is estimated at 1% from foreground stars (based on TRILEGAL simulations) and ∼20% from extinction affecting main sequence stars. Combining our YSG candidates with time-domain catalogues yielded several interesting candidates. In particular, we identified 12 LRN precursor candidates for which follow-up is encouraged.Conclusions. We highlight the importance of monitoring future transients that match YSG candidates to avoid missing potential LRNe and other rare transients. LSST will be a game changer in the search for LRN progenitors and precursors; it is predicted to discover over 300 000 new YSG candidates and 100 LRN precursors within 20 Mpc.
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Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.
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