A. Sneppen, Darach Watson, Rasmus Damgaard, E. Kasper Heintz, Nicholas Vieira, Petri Vaisanen, A. Mahoro
{"title":"公里诺娃 AT2017gfo 逐小时出现的特征","authors":"A. Sneppen, Darach Watson, Rasmus Damgaard, E. Kasper Heintz, Nicholas Vieira, Petri Vaisanen, A. Mahoro","doi":"10.1051/0004-6361/202450317","DOIUrl":null,"url":null,"abstract":"The spectral features in the optical/near-infrared counterparts of neutron star mergers (kilonovae, KNe) evolve dramatically on hourly timescales. To examine the spectral evolution, we compiled a temporal series that was complete at all observed epochs from 0.5 to 9.4\\,days of the best optical/near-infrared (NIR) spectra of the gravitational-wave detected kilonova AT2017gfo. Using our analysis of this spectral series, we show that the emergence times of spectral features place strong constraints on line identifications and ejecta properties, while their subsequent evolution probes the structure of the ejecta. We find that the most prominent spectral feature, the 1\\ P Cygni line, appears suddenly, with the earliest detection at 1.17\\,days. We find evidence in this earliest feature for the fastest yet discovered kilonova ejecta component at 0.40--0.45$c$. Across the observed epochs and wavelengths, the velocities of the line-forming regions span nearly an order of magnitude, down to as low as 0.04--0.07$c$. The time of emergence closely follows the predictions for because combines rapidly under local thermal equilibrium (LTE) conditions. The transition time between the doubly and singly ionised states provides the first direct measurement of the ionisation temperature. This temperature is highly consistent with the temperature of the emitted blackbody radiation field at a level of a few percent. Furthermore, we find the KN to be isotropic in temperature, that is, the polar and equatorial ejecta differ by less than a few hundred Kelvin or \\( 5\\), in the first few days post-merger based on measurements of the reverberation time-delay effect. This suggests that a model with very simple assumptions, with single-temperature LTE conditions, reproduces the early kilonova properties surprisingly well.","PeriodicalId":8585,"journal":{"name":"Astronomy & Astrophysics","volume":"12 3","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Emergence hour-by-hour of features in the kilonova AT2017gfo\",\"authors\":\"A. Sneppen, Darach Watson, Rasmus Damgaard, E. Kasper Heintz, Nicholas Vieira, Petri Vaisanen, A. Mahoro\",\"doi\":\"10.1051/0004-6361/202450317\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The spectral features in the optical/near-infrared counterparts of neutron star mergers (kilonovae, KNe) evolve dramatically on hourly timescales. To examine the spectral evolution, we compiled a temporal series that was complete at all observed epochs from 0.5 to 9.4\\\\,days of the best optical/near-infrared (NIR) spectra of the gravitational-wave detected kilonova AT2017gfo. Using our analysis of this spectral series, we show that the emergence times of spectral features place strong constraints on line identifications and ejecta properties, while their subsequent evolution probes the structure of the ejecta. We find that the most prominent spectral feature, the 1\\\\ P Cygni line, appears suddenly, with the earliest detection at 1.17\\\\,days. We find evidence in this earliest feature for the fastest yet discovered kilonova ejecta component at 0.40--0.45$c$. Across the observed epochs and wavelengths, the velocities of the line-forming regions span nearly an order of magnitude, down to as low as 0.04--0.07$c$. The time of emergence closely follows the predictions for because combines rapidly under local thermal equilibrium (LTE) conditions. The transition time between the doubly and singly ionised states provides the first direct measurement of the ionisation temperature. This temperature is highly consistent with the temperature of the emitted blackbody radiation field at a level of a few percent. Furthermore, we find the KN to be isotropic in temperature, that is, the polar and equatorial ejecta differ by less than a few hundred Kelvin or \\\\( 5\\\\), in the first few days post-merger based on measurements of the reverberation time-delay effect. 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引用次数: 0
摘要
中子星合并(kilonovae,KNe)的光学/近红外对应物的光谱特征在小时时间尺度上急剧演变。为了研究光谱的演变,我们编制了一个时间序列,该序列包含了从0.5到9.4(天)的所有观测纪元的最佳光学/近红外(NIR)光谱,这些光谱是引力波探测到的千新星AT2017gfo的。通过对该光谱序列的分析,我们发现光谱特征的出现时间对线的识别和喷出物的性质有很强的约束,而它们随后的演变则探测了喷出物的结构。我们发现,最突出的光谱特征--1\ P Cygni线--出现得很突然,最早的探测时间是1.17\,天。我们在这一最早的特征中发现了迄今发现的速度最快的千新星喷出物成分的证据,其速度为 0.40--0.45c$。在观测到的各个纪元和波长上,线形成区的速度几乎跨越了一个数量级,低至0.04--0.07$c$。出现的时间与在局部热平衡(LTE)条件下快速结合的预测时间非常接近。双电离状态和单电离状态之间的转变时间首次提供了电离温度的直接测量值。该温度与黑体辐射场的发射温度高度一致,仅为百分之几。此外,根据对混响时延效应的测量,我们发现KN的温度是各向同性的,也就是说,在合并后的最初几天里,极地和赤道喷出物的温度相差不到几百开尔文或(5)。这表明,一个假设条件非常简单的模型,在单温LTE条件下,能够出人意料地很好地再现早期千新星的特性。
Emergence hour-by-hour of features in the kilonova AT2017gfo
The spectral features in the optical/near-infrared counterparts of neutron star mergers (kilonovae, KNe) evolve dramatically on hourly timescales. To examine the spectral evolution, we compiled a temporal series that was complete at all observed epochs from 0.5 to 9.4\,days of the best optical/near-infrared (NIR) spectra of the gravitational-wave detected kilonova AT2017gfo. Using our analysis of this spectral series, we show that the emergence times of spectral features place strong constraints on line identifications and ejecta properties, while their subsequent evolution probes the structure of the ejecta. We find that the most prominent spectral feature, the 1\ P Cygni line, appears suddenly, with the earliest detection at 1.17\,days. We find evidence in this earliest feature for the fastest yet discovered kilonova ejecta component at 0.40--0.45$c$. Across the observed epochs and wavelengths, the velocities of the line-forming regions span nearly an order of magnitude, down to as low as 0.04--0.07$c$. The time of emergence closely follows the predictions for because combines rapidly under local thermal equilibrium (LTE) conditions. The transition time between the doubly and singly ionised states provides the first direct measurement of the ionisation temperature. This temperature is highly consistent with the temperature of the emitted blackbody radiation field at a level of a few percent. Furthermore, we find the KN to be isotropic in temperature, that is, the polar and equatorial ejecta differ by less than a few hundred Kelvin or \( 5\), in the first few days post-merger based on measurements of the reverberation time-delay effect. This suggests that a model with very simple assumptions, with single-temperature LTE conditions, reproduces the early kilonova properties surprisingly well.