附近 LINER 星系 NGC 3799 中的快速瞬态 AT 2023clx 是一颗低质量恒星的潮汐扰动

P. Charalampopoulos, R. Kotak, T. Wevers, G. Leloudas, T. Kravtsov, M. Pursiainen, P. Ramsden, T. Reynolds, A. Aamer, J. P. Anderson, I. Arcavi, Y.-Z. Cai, T.-W. Chen, M. Dennefeld, L. Galbany, M. Gromadzki, C. P. Gutierrez, N. Ihanec, T. Kangas, E. Kankare, E. Kool, A. Lawrence, P. Lundqvist, L. Makrygianni, S. Mattila, T. Muller-bravo, M. Nicholl, F. Onori, A. Sahu, S. Smartt, J. Sollerman, Y. Wang, D. Young
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引用次数: 0

摘要

我们对AT 2023clx的光学和紫外线(UV)特性进行了广泛的分析,它是迄今为止最接近的光学/紫外线潮汐扰动事件(TDE)($z=0.01107$),发生在相互作用的低电离核发射线区(LINER)星系NGC 3799的星系核中。在校正了宿主红化($ h $ = 0.179 mag)之后,我们发现它的峰值绝对g$波段星等为$-18.03 0.07$,峰值测光光度为L_ pk$。 AT 2023clx有几个显著特点:首先,它在10.4天内就达到了峰值,是迄今为止上升最快的TDE。我们用几种标准方法估算出的SMBH质量为$ M BH--排除了中等质量BH作为快速上升原因的可能性。密集的光谱跟踪显示了缓慢冷却的蓝色连续波、宽广的巴尔默线和He II线,以及通常在TDEs中看到的微弱的He I发射特征。Halpha的早期宽(宽度$$)剖面符合光学厚外流的理论预期。平坦的巴尔默递减($L_ H alpha $/$L_ H beta 1.58$)表明,这些谱线是碰撞激发的,而不是通过光离子化产生的,这与典型的活动星系核不同。第二个显著特点是在TDE光谱中首次看到的一个尖锐、狭窄的发射峰,其静止波长为sim 6353,这个特征在峰后10\,d以内都清晰可见;我们将其归因于大量流出之前的团块物质,它表现为Halpha的高速成分($-9\,584 $)。它的第三个显著特点是在峰值后的最初20天内迅速冷却,反映为温度演化的中断。结合这些发现,我们为AT 2023clx提出了一种设想,即一颗质量很低的恒星($)在我们的视线范围内发生了扰动,其流出物是通过低密度光球层观测到的,其扰动特性导致了高效的环化和吸积盘的迅速形成。
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The fast transient AT 2023clx in the nearby LINER galaxy NGC 3799 as a tidal disruption of a very low-mass star
We present an extensive analysis of the optical and ultraviolet (UV) properties of AT 2023clx, the closest optical/UV tidal disruption event (TDE) to date ($z=0.01107$), which occurred in the nucleus of the interacting low-ionization nuclear emission-line region (LINER) galaxy, NGC 3799. After correcting for the host reddening ($ h $ = 0.179 mag), we find its peak absolute $g$-band magnitude to be $-18.03 0.07$ mag, and its peak bolometric luminosity to be L_ pk $. AT 2023clx displays several distinctive features: first, it rose to peak within $10.4 days, making it the fastest rising TDE to date. Our SMBH mass estimate of $ M BH ---estimated using several standard methods--- rules out the possibility of an intermediate-mass BH as the reason for the fast rise. Dense spectral follow-up reveals a blue continuum that cools slowly and broad Balmer and He II lines as well as weak He I emission features that are typically seen in TDEs. The early, broad (width $ $) profile of Halpha matches theoretical expectations from an optically thick outflow. A flat Balmer decrement ($L_ H alpha $/$L_ H beta 1.58$) suggests that the lines are collisionally excited rather than being produced via photoionisation, in contrast to typical active galactic nuclei. A second distinctive feature, seen for the first time in TDE spectra, is a sharp, narrow emission peak at a rest wavelength of sim 6353 This feature is clearly visible up to 10\,d post-peak; we attribute it to clumpy material preceding the bulk outflow, which manifests as a high-velocity component of Halpha ($-9\,584 $). Its third distinctive feature is the rapid cooling during the first sim 20 days after peak, reflected as a break in the temperature evolution. Combining these findings, we propose a scenario for AT 2023clx involving the disruption of a very low-mass star ($ with an outflow launched in our line of sight and with disruption properties that led to efficient circularisation and prompt accretion disc formation, observed through a low-density photosphere.
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