{"title":"Merging galaxies in isolated environments","authors":"Paula Calderón-Castillo, Rory Smith","doi":"10.1051/0004-6361/202450473","DOIUrl":null,"url":null,"abstract":"<i>Context.<i/> It is now well known that certain massive galaxies undergo enormous enhancements in their star formation rate (SFR) when they undergo major mergers. These enhancements can be as high as 100 times the SFR of unperturbed galaxies of the same stellar mass. Previous works have found that the size of this boost in star formation (SF) is related to the morphology of and the proximity to the companion. The same trend has also been observed for the fraction of active galactic nuclei (AGN), where galaxies that are closer together tend to have higher AGN fractions.<i>Aims.<i/> We aim to analyse the SF enhancement and AGN fraction evolution during the merger process by using a more timeline-like merger sequence. Additionally, we aim to determine the relation between the SF enhancement in mergers and the morphology of the galaxies involved.<i>Methods.<i/> Taking advantage of the stellar masses (<i>M<i/><sub>*<sub/>) and SFRs of the ∼600 nearby isolated mergers obtained in our previous study, we calculated the distance of each of our galaxies from the star-forming main sequence (MS; specific SFR (sSFR)/sSFR<sub>MS<sub/>), which werefer to as the SF mode. We then analysed how the SF mode varies during the merger process as a function of morphology and <i>M<i/><sub>*<sub/>. Additionally, we analysed the AGN content of our mergers, using multiple diagnostics based on emission line ratios and WISE colours.<i>Results.<i/> We observed that, overall, merging galaxies show an SF mode that is governed by their morphology. Spirals typically show high SF mode values, while highly disturbed (HD) galaxies are generally even more enhanced (median values of +0.8 dex and +1.08 dex above the MS, respectively). In contrast, elliptical and lenticular galaxies show the lowest SF modes, as expected. However, even they show SF enhancement compared to their unperturbed counterparts. For example, their median SF mode is just within the 1-sigma scatter of the MS, and this can occur even before the galaxies have coalesced. We observed a trend for the SF mode to gradually increase with increasing merger stage. We did not find a clear dependency of the observed AGN fraction on the merger stage for the majority of our classification methods.<i>Conclusions.<i/> We find mergers can significantly enhance SF in galaxies of all morphologies. For early-type galaxies, this could suggest that some gas was present prior to the merger, which may be triggered to form stars by the tidal interaction. As the SF enhancement continues throughout the merger process, this suggests that the enhancement may be a long-lived event, contrary to the short starbursts seen in some models.","PeriodicalId":8571,"journal":{"name":"Astronomy & Astrophysics","volume":"4 1","pages":""},"PeriodicalIF":5.4000,"publicationDate":"2024-10-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Astronomy & Astrophysics","FirstCategoryId":"101","ListUrlMain":"https://doi.org/10.1051/0004-6361/202450473","RegionNum":2,"RegionCategory":"物理与天体物理","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"ASTRONOMY & ASTROPHYSICS","Score":null,"Total":0}
引用次数: 0
Abstract
Context. It is now well known that certain massive galaxies undergo enormous enhancements in their star formation rate (SFR) when they undergo major mergers. These enhancements can be as high as 100 times the SFR of unperturbed galaxies of the same stellar mass. Previous works have found that the size of this boost in star formation (SF) is related to the morphology of and the proximity to the companion. The same trend has also been observed for the fraction of active galactic nuclei (AGN), where galaxies that are closer together tend to have higher AGN fractions.Aims. We aim to analyse the SF enhancement and AGN fraction evolution during the merger process by using a more timeline-like merger sequence. Additionally, we aim to determine the relation between the SF enhancement in mergers and the morphology of the galaxies involved.Methods. Taking advantage of the stellar masses (M*) and SFRs of the ∼600 nearby isolated mergers obtained in our previous study, we calculated the distance of each of our galaxies from the star-forming main sequence (MS; specific SFR (sSFR)/sSFRMS), which werefer to as the SF mode. We then analysed how the SF mode varies during the merger process as a function of morphology and M*. Additionally, we analysed the AGN content of our mergers, using multiple diagnostics based on emission line ratios and WISE colours.Results. We observed that, overall, merging galaxies show an SF mode that is governed by their morphology. Spirals typically show high SF mode values, while highly disturbed (HD) galaxies are generally even more enhanced (median values of +0.8 dex and +1.08 dex above the MS, respectively). In contrast, elliptical and lenticular galaxies show the lowest SF modes, as expected. However, even they show SF enhancement compared to their unperturbed counterparts. For example, their median SF mode is just within the 1-sigma scatter of the MS, and this can occur even before the galaxies have coalesced. We observed a trend for the SF mode to gradually increase with increasing merger stage. We did not find a clear dependency of the observed AGN fraction on the merger stage for the majority of our classification methods.Conclusions. We find mergers can significantly enhance SF in galaxies of all morphologies. For early-type galaxies, this could suggest that some gas was present prior to the merger, which may be triggered to form stars by the tidal interaction. As the SF enhancement continues throughout the merger process, this suggests that the enhancement may be a long-lived event, contrary to the short starbursts seen in some models.
背景。众所周知,某些大质量星系在发生重大合并时,其恒星形成率(SFR)会有巨大的提高。这些增强的恒星形成率可以高达相同恒星质量的未受扰动星系的 100 倍。之前的研究发现,这种恒星形成率(SFR)提升的大小与伴星系的形态和距离有关。在活动星系核(AGN)的比例上也观察到了同样的趋势,距离较近的星系往往具有较高的AGN比例。我们的目的是利用更类似于时间轴的合并序列,分析合并过程中 SF 增强和 AGN 分数的演变。此外,我们还旨在确定合并过程中的SF增强与相关星系形态之间的关系。利用之前研究中获得的600个邻近孤立合并星系的恒星质量(M*)和SFR,我们计算了每个星系与恒星形成主序(MS;比SFR(sSFR)/sSFRMS)的距离,将其称为SF模式。然后,我们分析了合并过程中 SF 模式如何随形态和 M* 而变化。此外,我们还利用基于发射线比和 WISE 颜色的多种诊断方法,分析了合并天体中 AGN 的含量。我们观察到,从总体上看,合并星系的 SF 模式是由其形态决定的。螺旋星系通常显示出较高的 SF 模式值,而高度扰动(HD)星系的 SF 模式值甚至更高(中位值分别比 MS 值高出+0.8 dex 和+1.08 dex)。相比之下,椭圆星系和透镜星系的 SF 模式值最低,这也在意料之中。不过,与未受扰动的同类星系相比,它们的SF也有增强。例如,它们的SF模式中值刚好在MS的1-sigma散度范围内,而这种情况甚至可能发生在星系凝聚之前。我们观察到 SF 模式随着合并阶段的增加而逐渐增大的趋势。在大多数分类方法中,我们没有发现观测到的AGN部分与合并阶段有明显的相关性。我们发现合并可以显著增强各种形态星系的SF。对于早期类型的星系,这可能表明在合并之前就存在一些气体,它们可能在潮汐相互作用的触发下形成恒星。由于SF的增强在整个合并过程中都会持续,这表明SF的增强可能是一个长期的事件,这与某些模型中看到的短暂星爆不同。
期刊介绍:
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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