Long-Term Optical Spectroscopy of B[e] Star CI Cam in a Quiet State

IF 1.1 4区物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS

Astronomy Reports Pub Date : 2024-08-29 DOI:10.1134/S1063772924700501

V. G. Klochkova, A. S. Miroshnichenko, V. E. Panchuk

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Abstract

High-resolution optical spectra of the B[e] star CI Cam were obtained on arbitrary dates 2002–2023 using the 6-meter BTA telescope with the echelle spectrograph NES. The variability over time of the powerful emissions of H_α and He I profiles is found. For two-peak emissions with “rectangular” profiles, the intensity ratio of blue-shifted and red-shifted peaks is \({\text{V/R}} \geqslant 1\), except one date. A decrease in the intensity of all double-peaked emissions with “rectangular” profiles was revealed as they moved away in time from the 1998 outburst. The average radial velocity for emissions of this type for all observation dates varies in the range \({{V}_{r}}({\text{emis}}{-} d) = \) \( - (50.8 {\div} 55.7) \pm 0.2\) km/s. The half-amplitude of the change (standard deviation) is equal to \(\Delta {{V}_{r}} = 2.5\) km/s. The velocity for single-peaked ion emissions (Si III, Al III, Fe III) differs little from the values of \({{V}_{r}}({\text{emis}}{-} d)\), but the measurement accuracy for these emissions is worse: the average error for different dates ranges from 0.4 to 1.3 km/s. The systemic velocity is assumed to be \({{V}_{{{\text{sys}}}}} = - 55.4 \pm 0.6\) km/s according to the stable position of the forbidden emission [N II] 5755 Å. The position of single-peak emissions [O III] 4959 and 5007 Å is also stable: \({{V}_{r}}([{\text{O}}\;{\text{III}}]) = \) \( - 54.2 \pm 0.4\) km/s. Emissions [O I] 5577, 6300, 6363 Å, [Ca II] 7291 and 7324 Å are absent from the spectra. Appearance of the emission near 4686 Å is an infrequent event, its intensity rarely exceeds the noise level. Only a wide asymmetric emission with an intensity of about 16% above the continuum was registered in the spectrum for September 3, 2015. Questions arise about the use of this emission to estimate the period of variability of the star and about localization of this feature in the CI Cam system. The photospheric absorptions of N II, S II, and Fe III with a variable position are identified.

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静态 B[e] 星 CI Cam 的长期光学光谱分析

摘要利用配备了梯形光谱仪NES的6米BTA望远镜，在2002-2023年的任意日期获得了B[e]星CI Cam的高分辨率光学光谱。发现了 Hα 和 He I 的强辐射剖面随时间的变化。对于具有 "矩形 "剖面的双峰发射，蓝移峰和红移峰的强度比为（{text{V/R}} \geqslant 1\ ），只有一个日期除外。所有具有 "矩形 "剖面的双峰辐射的强度都随着它们远离 1998 年爆发的时间而下降。在所有观测日期中，这类发射的平均径向速度变化范围为 \({{V}_{r}}({\text{emis}}{-} d) = \)\(- (50.8 {\div} 55.7) \pm 0.2\) km/s。变化的半幅（标准偏差）等于 \(\Delta {{V}_{r}} = 2.5\) km/s。单峰离子发射（Si III、Al III、Fe III）的速度与 \({{V}_{r}}({\{text{emis}}{-} d)\) 的值相差不大，但这些发射的测量精度较差：不同日期的平均误差在 0.4 到 1.3 km/s 之间。根据禁止辐射[N II] 5755 Å的稳定位置，系统速度被假定为 \({{V}_{{text\{sys}}}}} = - 55.4 \pm 0.6\) km/s。单峰辐射[O III] 4959 和 5007 Å的位置也是稳定的：\({{V}_{r}}([{\{O}}\;{\{III}}]) = \)\( - 54.2 \pm 0.4\) km/s.光谱中没有[O I] 5577、6300、6363 Å，[Ca II] 7291 和 7324 Å的发射。4686 Å 附近的辐射出现得并不频繁，其强度很少超过噪声水平。只有在 2015 年 9 月 3 日的光谱中出现了一个宽的不对称发射，其强度高于连续面约 16%。利用这种发射来估算恒星的变异周期以及在 CI Cam 系统中定位这一特征的问题由此产生。确定了具有可变位置的 N II、S II 和 Fe III 的光层吸收。

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来源期刊

Astronomy Reports 地学天文-天文与天体物理

CiteScore

1.40

自引率

20.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Astronomy Reports is an international peer reviewed journal that publishes original papers on astronomical topics, including theoretical and observational astrophysics, physics of the Sun, planetary astrophysics, radio astronomy, stellar astronomy, celestial mechanics, and astronomy methods and instrumentation.