High Dispersion Spectroscopy of Solar-Type Superflare Stars

High Dispersion Spectroscopy of Solar-Type Superflare Stars

High Dispersion Spectroscopy of Solar-type Superflare Stars NOTSU, Yuta HONDA, Satoshi MAEHARA, Hiroyuki NOTSU, Shota (Kyoto University) (University of Hyogo) (NAOJ) (Kyoto University) SHIBAYAMA, Takuya NOGAMI, Daisaku, SHIBATA, Kazunari (Nagoya University) (Kyoto University) Flares are energetic explosions on the surface of the stars, and are thought to occur by intense releases of magnetic energy stored around starspots. Superflares are flares 10~106 times more energetic (~1033–38 erg) than the largest solar flares (~1032 erg). Recently, we analyzed the data of the Kepler spacecraft, and discovered 1547 superflares on 279 solar-type (G-type main sequence) stars [1,2]. This discovery was very important since it enabled us to conduct statistical analysis of superflares for Figure 1: The brightness variation of solar-type superflare the first time, but more detailed observations were needed stars (from Kepler data). In addition to the sudden brightenings caused by flares, quasi-periodic brightness to investigate detailed properties of superflare stars. variations with periods of about 15 days are seen. Right: Based on the initial discovery, we carried out high- An artificial image of a superflare star seen with visible dispersion spectroscopic observations on 50 solar-type light. This figure shows a large superflare (shown in superflare stars with Subaru/HDS [3,4]. white) occurring in the large starspot area. 1. More than half of the observed 50 stars show no evidence of binarity. We confirmed the characteristics 0.8 of the target stars (e.g., temperature, surface gravity) as similar to those of the Sun. 0.7 v sin i >10 [km s−1] 2. On the basis of the Kepler data, superflare stars show 0.6 5< v sin i ≤10 somewhat regular, periodic changes in their brightnesses ) v sin i ≤5 0.5 (Figure 1). The typical periods range from one day to a Sun few tens of days. Such variations are explained by the 0.4 (8542 0 rotation of the star with its large starspots [5]. If this is r 0.3 true, the timescales of the brightness variations should correspond to the stars’ rotation speeds. Spectroscopic 0.2 observations allow us to estimate the rotation velocity 0.1 from the broadening of absorption lines, and we confirm −4 −3 −2 that a velocity derived from spectroscopic data matches 10 10 10 the brightness variation timescale as the star rotates. In Brightness Variation Amplitude addition, the measured rotation velocity of some target Figure 2: The quantity r0(8542) (the residual core flux normalized superflare stars is as slow as that of the Sun. by the continuum level at the line cores of the Ca II 3. Based on solar observations, it is known that, the 8542Å) as a function of the amplitude of stellar intensity of the Ca II line is a good indicator of starspot brightness variation estimated from Kepler data. coverage. We investigated this line, and found that there is a correlation between the amplitude of the brightness variation of the Kepler data and the intensity of Ca II References 8542Å line (Figure 2). We then confirmed that superflare [1] Maehara, H., et al.: 2012, Nature, 485, 478. stars have large starspots compared with sunspots. [2] Shibayama, T., et al.: 2013, ApJS, 209, 5. These results confirm that stars similar to the Sun can [3] Notsu, Y., et al.: 2015, PASJ, 67, 32. have superflares if they have large starspots. In the future, [4] Notsu, Y., et al.: 2015, PASJ, 67, 33. in addition to the continuing spectroscopic observations [5] Notsu, Y., et al.: 2013, ApJ, 771, 127. with Subaru Telescope, we will conduct observations with the Kyoto University’s Okayama 3.8m telescope, which is now under construction. This will allow them to investigate more detailed properties and changes in long- term activity of superflare stars. I Scientific Highlights 009.

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