{"title":"Ceti星δ Scuti星的高阶非径向模式","authors":"L. Mantegazza, E. Poretti","doi":"10.1553/CIA146S33","DOIUrl":null,"url":null,"abstract":"High-resolution spectroscopic observations taken during 5 consecutive nights of the fast rotating δ Scuti star AV Ceti (v sin i = 188km/s) show the presence of non-radial modes with ` ∼ 10 − 16 and very short periods (ν ∼ 40− 70 c/d) Introduction and Observations The rapidly rotating δ Scuti star AV Ceti has been recently the target of a simultaneous photometric and low-resolution spectroscopic international campaign (Dall et al. 2003). Seven low-degree modes were detected in the frequency range 10-31 c/d. We observed this star with the Coudé Echelle Spectrograph attached at the ESO CAT Telescope during 5 consecutive nights (October 24-30, 1994; Remote Control from Garching headquarters) for about 2.5 consecutive hours per night and 55 spectrograms were collected with exposure times of 10 min and a typical S/N ratio at the continuum level of about 230. They had a resolution of 60000 and cover the region 4494-4513 Å. In this region we have two useful lines to study line profile variations: TiII 4501Å and FeII 4508Å. Fig. 1 shows the average continuum normalized spectrum (upper panel) and the pixel-by-pixel standard deviation (lower panel). Added by editor (MB): The Astronomy and Astrophysics publisher used an incorrect name for the star (AV Cetei instead of AV Ceti) in the title and running head of the Dall et al. paper. The authors of the present publication note: Cetus,-i belongs to the second latin declination (as, for example, Cepheus,-i) : nominative and genitive cases are different (Cephei, Ceti). On the other hand, Doradus,-us belongs to the fourth declination and the genitive is the same as the nominative (γ Doradus, not γ Doradi). For a correct use of abbreviations of constellations see http://www.iau.org/Activities/nomenclature/const.html 34 High-degree non-radial modes in the δ Scuti star AV Ceti Figure 1: Average normalized spectrum (top panel); pixel-by-pixel data standard deviation (lower panel). Data analysis and discussion We can see that the line profiles have variations with a std.dev of about 0.002 of the continuum level. A non-linear least-squares fit of a rotationally broadened Gaussian intrinsic profile, taking also into account the limb darkening, on the two average line profiles supplies v sin i = 188± 1 km/s. The line profile variations were analyzed by means of the Fourier Doppler Imaging Technique (Kennelly et al. 1998; Hao 1998). Fig. 2 shows the twodimensional power spectrum obtained considering all the data in a single time series and merging the information of the two spectral lines. We see that there is a clear clump of modes in the region 10 ≤ ` ≤ 16, 35 ≤ ν ≤ 70 c/d. Because of the very severe aliasing, due to the poor temporal coverage, it is not possible to derive a detection of individual modes. A CLEANed version of this power spectrum is shown in Fig. 3 (gain=0.9, 100 iterations). This figure should be considered only as indicative, and the individual modes cannot be taken at face value, since the poor spectral window makes a correct deconvolution problematic. However it clearly shows that we should expect a very complex pulsation pattern with several high-degree, high-frequency modes. Can this be due to the fast rotation? More intensive L. Mantegazza and E. Poretti 35 Figure 2: Two-dimensional Fourier power spectrum. Figure 3: CLEANed two-dimensional Fourier power spectrum. 36 High-degree non-radial modes in the δ Scuti star AV Ceti observations are necessary to get a more exhaustive picture of the stellar pulsation spectrum. We also note that the low-degree modes, photometrically detected by Dall et al. (2003) do not produce relevant patterns in our power spectrum. This does not necessarily mean that they are not present, since our technique is more sensitive to high-degree modes (see also Mantegazza 2000). References Dall, T.H., Handler, G., Moalusi, M.B., Frandsen, S. 2003, A&A 410, 983 Hao, J. 1998, ApJ 500, 440 Kennelly,E.J. et al. 1998, ApJ 495, 440 Mantegazza, L. 2000, ASP Conf. Ser. 210, 138","PeriodicalId":151133,"journal":{"name":"Third Coast","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2005-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"High-degree non-radial modes in the δ Scuti star AV Ceti\",\"authors\":\"L. Mantegazza, E. Poretti\",\"doi\":\"10.1553/CIA146S33\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"High-resolution spectroscopic observations taken during 5 consecutive nights of the fast rotating δ Scuti star AV Ceti (v sin i = 188km/s) show the presence of non-radial modes with ` ∼ 10 − 16 and very short periods (ν ∼ 40− 70 c/d) Introduction and Observations The rapidly rotating δ Scuti star AV Ceti has been recently the target of a simultaneous photometric and low-resolution spectroscopic international campaign (Dall et al. 2003). Seven low-degree modes were detected in the frequency range 10-31 c/d. We observed this star with the Coudé Echelle Spectrograph attached at the ESO CAT Telescope during 5 consecutive nights (October 24-30, 1994; Remote Control from Garching headquarters) for about 2.5 consecutive hours per night and 55 spectrograms were collected with exposure times of 10 min and a typical S/N ratio at the continuum level of about 230. They had a resolution of 60000 and cover the region 4494-4513 Å. In this region we have two useful lines to study line profile variations: TiII 4501Å and FeII 4508Å. Fig. 1 shows the average continuum normalized spectrum (upper panel) and the pixel-by-pixel standard deviation (lower panel). Added by editor (MB): The Astronomy and Astrophysics publisher used an incorrect name for the star (AV Cetei instead of AV Ceti) in the title and running head of the Dall et al. paper. The authors of the present publication note: Cetus,-i belongs to the second latin declination (as, for example, Cepheus,-i) : nominative and genitive cases are different (Cephei, Ceti). On the other hand, Doradus,-us belongs to the fourth declination and the genitive is the same as the nominative (γ Doradus, not γ Doradi). For a correct use of abbreviations of constellations see http://www.iau.org/Activities/nomenclature/const.html 34 High-degree non-radial modes in the δ Scuti star AV Ceti Figure 1: Average normalized spectrum (top panel); pixel-by-pixel data standard deviation (lower panel). Data analysis and discussion We can see that the line profiles have variations with a std.dev of about 0.002 of the continuum level. A non-linear least-squares fit of a rotationally broadened Gaussian intrinsic profile, taking also into account the limb darkening, on the two average line profiles supplies v sin i = 188± 1 km/s. The line profile variations were analyzed by means of the Fourier Doppler Imaging Technique (Kennelly et al. 1998; Hao 1998). Fig. 2 shows the twodimensional power spectrum obtained considering all the data in a single time series and merging the information of the two spectral lines. We see that there is a clear clump of modes in the region 10 ≤ ` ≤ 16, 35 ≤ ν ≤ 70 c/d. Because of the very severe aliasing, due to the poor temporal coverage, it is not possible to derive a detection of individual modes. A CLEANed version of this power spectrum is shown in Fig. 3 (gain=0.9, 100 iterations). This figure should be considered only as indicative, and the individual modes cannot be taken at face value, since the poor spectral window makes a correct deconvolution problematic. However it clearly shows that we should expect a very complex pulsation pattern with several high-degree, high-frequency modes. Can this be due to the fast rotation? More intensive L. Mantegazza and E. Poretti 35 Figure 2: Two-dimensional Fourier power spectrum. Figure 3: CLEANed two-dimensional Fourier power spectrum. 36 High-degree non-radial modes in the δ Scuti star AV Ceti observations are necessary to get a more exhaustive picture of the stellar pulsation spectrum. We also note that the low-degree modes, photometrically detected by Dall et al. (2003) do not produce relevant patterns in our power spectrum. This does not necessarily mean that they are not present, since our technique is more sensitive to high-degree modes (see also Mantegazza 2000). References Dall, T.H., Handler, G., Moalusi, M.B., Frandsen, S. 2003, A&A 410, 983 Hao, J. 1998, ApJ 500, 440 Kennelly,E.J. et al. 1998, ApJ 495, 440 Mantegazza, L. 2000, ASP Conf. 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引用次数: 1
摘要
对快速旋转的δ Scuti星AV Ceti (v sin i = 188km/s)连续5晚进行的高分辨率光谱观测显示,存在' ~ 10−16和非常短的周期(ν ~ 40−70 c/d)的非径向模式。介绍和观测快速旋转的δ Scuti星AV Ceti最近已成为同时进行的光度测定和低分辨率光谱国际运动的目标(Dall et al. 2003)。在10-31 c/d频率范围内检测到7种低度模态。我们连续5个晚上(1994年10月24-30日;在曝光时间为10分钟、典型信噪比为230的连续水平下,采集了55张声谱图。它们的分辨率为60000,覆盖区域4494-4513 Å。在这个区域,我们有两条有用的线来研究线形变化:TiII 4501Å和FeII 4508Å。图1显示了平均连续统归一化光谱(上图)和逐像素标准差(下图)。编辑补充(MB):天文学和天体物理学出版商在Dall等人的论文标题和正文中使用了错误的恒星名称(AV Cetei而不是AV Ceti)。本出版物的作者指出:Cetus,-i属于第二个拉丁赤星(例如,Cepheus,-i):主格和属格的情况是不同的(Cephei, Ceti)。另一方面,Doradus,-us属于第四赤纬,属格与主格相同(γ Doradus,而不是γ Doradi)。有关星座缩写的正确使用,请参见http://www.iau.org/Activities/nomenclature/const.html 34 δ Scuti星AV Ceti的高度非径向模式图1:平均归一化光谱(顶板);逐像素数据标准差(下图)。数据分析和讨论我们可以看到,在连续体水平的0.002左右的标准差范围内,线条轮廓有变化。旋转加宽高斯本征轮廓的非线性最小二乘拟合,也考虑到边缘变暗,在两条平均线轮廓上提供v sin i = 188±1 km/s。利用傅里叶多普勒成像技术(Kennelly et al. 1998;郝1998)。图2为考虑单个时间序列中所有数据并合并两条谱线信息得到的二维功率谱。我们看到在10≤'≤16,35≤ν≤70 c/d区域有一个明显的模态团。由于非常严重的混叠,由于较差的时间覆盖,不可能得出单个模式的检测。该功率谱的清洗版本如图3所示(增益=0.9,100次迭代)。该图应仅被视为指示性的,单个模式不能被视为表面价值,因为较差的光谱窗口使正确的反褶积成为问题。然而,它清楚地表明,我们应该期待一个非常复杂的脉动模式,具有几个高频率的模式。这是由于快速旋转吗?L. Mantegazza和E. Poretti 35图2:二维傅里叶功率谱。图3:清洗后的二维傅立叶功率谱。天蝎座δ星AV Ceti的高度非径向模式的观测是获得恒星脉动光谱更详尽图像的必要条件。我们还注意到,Dall等人(2003)用光度法探测到的低度模式在我们的功率谱中不会产生相关的模式。这并不一定意味着它们不存在,因为我们的技术对高阶模态更敏感(参见Mantegazza 2000)。参考文献Dall, T.H, Handler, G., Moalusi, M.B, Frandsen, S. 2003, A&A 410, 983郝,J. 1998, ApJ 500, 440 Kennelly,E.J.等。1998,中国生物医学工程学报,495,440
High-degree non-radial modes in the δ Scuti star AV Ceti
High-resolution spectroscopic observations taken during 5 consecutive nights of the fast rotating δ Scuti star AV Ceti (v sin i = 188km/s) show the presence of non-radial modes with ` ∼ 10 − 16 and very short periods (ν ∼ 40− 70 c/d) Introduction and Observations The rapidly rotating δ Scuti star AV Ceti has been recently the target of a simultaneous photometric and low-resolution spectroscopic international campaign (Dall et al. 2003). Seven low-degree modes were detected in the frequency range 10-31 c/d. We observed this star with the Coudé Echelle Spectrograph attached at the ESO CAT Telescope during 5 consecutive nights (October 24-30, 1994; Remote Control from Garching headquarters) for about 2.5 consecutive hours per night and 55 spectrograms were collected with exposure times of 10 min and a typical S/N ratio at the continuum level of about 230. They had a resolution of 60000 and cover the region 4494-4513 Å. In this region we have two useful lines to study line profile variations: TiII 4501Å and FeII 4508Å. Fig. 1 shows the average continuum normalized spectrum (upper panel) and the pixel-by-pixel standard deviation (lower panel). Added by editor (MB): The Astronomy and Astrophysics publisher used an incorrect name for the star (AV Cetei instead of AV Ceti) in the title and running head of the Dall et al. paper. The authors of the present publication note: Cetus,-i belongs to the second latin declination (as, for example, Cepheus,-i) : nominative and genitive cases are different (Cephei, Ceti). On the other hand, Doradus,-us belongs to the fourth declination and the genitive is the same as the nominative (γ Doradus, not γ Doradi). For a correct use of abbreviations of constellations see http://www.iau.org/Activities/nomenclature/const.html 34 High-degree non-radial modes in the δ Scuti star AV Ceti Figure 1: Average normalized spectrum (top panel); pixel-by-pixel data standard deviation (lower panel). Data analysis and discussion We can see that the line profiles have variations with a std.dev of about 0.002 of the continuum level. A non-linear least-squares fit of a rotationally broadened Gaussian intrinsic profile, taking also into account the limb darkening, on the two average line profiles supplies v sin i = 188± 1 km/s. The line profile variations were analyzed by means of the Fourier Doppler Imaging Technique (Kennelly et al. 1998; Hao 1998). Fig. 2 shows the twodimensional power spectrum obtained considering all the data in a single time series and merging the information of the two spectral lines. We see that there is a clear clump of modes in the region 10 ≤ ` ≤ 16, 35 ≤ ν ≤ 70 c/d. Because of the very severe aliasing, due to the poor temporal coverage, it is not possible to derive a detection of individual modes. A CLEANed version of this power spectrum is shown in Fig. 3 (gain=0.9, 100 iterations). This figure should be considered only as indicative, and the individual modes cannot be taken at face value, since the poor spectral window makes a correct deconvolution problematic. However it clearly shows that we should expect a very complex pulsation pattern with several high-degree, high-frequency modes. Can this be due to the fast rotation? More intensive L. Mantegazza and E. Poretti 35 Figure 2: Two-dimensional Fourier power spectrum. Figure 3: CLEANed two-dimensional Fourier power spectrum. 36 High-degree non-radial modes in the δ Scuti star AV Ceti observations are necessary to get a more exhaustive picture of the stellar pulsation spectrum. We also note that the low-degree modes, photometrically detected by Dall et al. (2003) do not produce relevant patterns in our power spectrum. This does not necessarily mean that they are not present, since our technique is more sensitive to high-degree modes (see also Mantegazza 2000). References Dall, T.H., Handler, G., Moalusi, M.B., Frandsen, S. 2003, A&A 410, 983 Hao, J. 1998, ApJ 500, 440 Kennelly,E.J. et al. 1998, ApJ 495, 440 Mantegazza, L. 2000, ASP Conf. Ser. 210, 138