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Molowny-Horas Roberto Oliver Ramón Ballester José Luis Baudin Frédéric 《Solar physics》1997,172(1-2):181-188
We report on the observation of Doppler oscillations in a quiescent limb prominence. Fourier analysis of the data reveals an oscillatory period of 7.5 min, whose phase varies linearly at 16 consecutive points (7280 km) along the slit. This yields an upper limit for the perturbation wavelength of 20000 km. Wavelet analysis confirms the above period and indicates an oscillation lifetime of 12 min. Moreover, the disturbance appears to travel at a speed greater than 4.4 km s-1. A comparison of these results with the predictions of some theoretical models is made. 相似文献
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Previous studies have shown that the measured velocity field in solar prominences exhibits a slightly different behaviour depending on the observational conditions, on the investigation method, and possibly on the type of prominence. Observations of prominences seen at the limb reveal strong downward motions, whereas upflows are detected as Doppler shifts in filaments on the disk. In order to shed new light on this point, we have investigated the mass motions in a solar prominence by using a new method for calculating the geometric distortion between subsequent images. Flows perpendicular to the line of sight have been determined in several layers of the prominence-corona atmosphere, using extreme ultraviolet (EUV) lines formed at different temperature levels (T=104–106 K). We show that the motions mainly have a vertical direction, oriented both upwards and downwards. The velocity pattern can change rapidly during time intervals exceeding 10–15 min. We also find that the measured velocity field shows a similar pattern in all the studied lines. 相似文献
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Roberto Molowny-Horas 《Solar physics》1994,154(1):29-39
Horizontal proper motions of penumbral structure and umbral dots have been measured from a 17-min-long time series of sunspot images by numerical techniques. In the penumbra, inflows are seen to occur predominantly in the inner region, with an average velocity of 290 m s–1. Penumbral outflows take place mostly in the outer part, where they reach velocities as high as 1.5 km s–1, with an average velocity of 500 m s–1. In the umbra, proper motions of 28 bright dots have been measured with an accuracy better than 50 m s–1. The mean velocity of the umbral dots is 210 m s–1. Most of the umbral dots display the well-known inward motion away from the peripheral umbra. 相似文献
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