对发光蓝变星和B[e]超巨星的运动学洞察

Julian A. Deman and M. S. Oey
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摘要

最近的研究表明,许多发光蓝变星(LBVs)和B[e]超巨星(sgB[e])都是孤立的,这意味着它们可能是大质量双星的产物,由伙伴超新星踢出。然而,证据有些复杂,而且存在争议。为了验证这一假设,我们利用盖亚数据第 3 版测量了这些天体在 LMC 和 SMC 的运动速度。我们的LMC结果表明,运动学、光度和红外特性都表明LBV和sgB[e]星是不同的类别。我们发现,具有尘状星云的1级LBV和sgB[e]星的速度分布都与SMC场OBe星的速度分布相当,而SMC场OBe星是已知经历过SN踢的恒星。sgB[e]星的速度更快,这可能是由于它们的平均质量较低。不过,第2类LBV是没有尘埃星云的发光体,没有加速的迹象,因此表明它们是单星、前SN双星,或者可能是双星合并体。候选的枸杞多糖 3 级恒星以热尘埃为主,它们都是已被证实的 sgB[e] 星;它们的光度和速度表明,它们只是代表了 sgB[e] 级中最亮和质量最大的恒星。SMC天体很少,但sgB[e]星的速度比LMC天体快,这可能与人们的预期一致,即低金属双星更紧密,导致抛射更快。我们还研究了无尘埃、弱衬砌的sgB[e]星这一独特类别,发现SMC天体的速度是整个样本中最快的。
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Kinematic Insights into Luminous Blue Variables and B[e] Supergiants
Recent work suggests that many luminous blue variables (LBVs) and B[e] supergiants (sgB[e]) are isolated, implying that they may be products of massive binaries, kicked by partner supernovae. However, the evidence is somewhat complex and controversial. To test this scenario, we measure the proper-motion velocities for these objects in the LMC and SMC, using Gaia Data Release 3. Our LMC results show that the kinematics, luminosities, and IR properties point to LBVs and sgB[e] stars being distinct classes. We find that Class 1 LBVs, which have dusty nebulae, and sgB[e] stars both show velocity distributions comparable to that of SMC field OBe stars, which are known to have experienced SN kicks. The sgB[e] stars are faster, plausibly due to their lower average masses. However, Class 2 LBVs, which are luminous objects without dusty nebulae, show no signs of acceleration, therefore suggesting that they are single stars, pre-SN binaries, or perhaps binary mergers. The candidate LBV Class 3 stars, which are dominated by hot dust, are all confirmed sgB[e] stars; their luminosities and velocities show that they simply represent the most luminous and massive of the sgB[e] class. There are very few SMC objects, but the sgB[e] stars are faster than their LMC counterparts, which may be consistent with expectations that lower-metallicity binaries are tighter, causing faster ejections. We also examine the distinct class of dust-free, weak-lined sgB[e] stars, finding that the SMC objects have the fastest velocities of the entire sample.
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