1. Characterizing Superflares in HR 1099 Using Temporal and Spectral Analysis of XMM-Newton Observations
- Author
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Shweta Didel, Jeewan C. Pandey, and A.K. Srivastava
- Subjects
RS Canum Venaticorum variable stars ,X-ray stars ,Stellar x-ray flares ,Stellar coronal loops ,Stellar activity ,Stellar abundances ,Astronomy ,QB1-991 - Abstract
In the present paper, we analyze three energetic X-ray flares from the active RS CVn binary HR 1099 using data obtained from XMM-Newton. The flare duration ranges from 2.8 to 4.1 hr, with e -folding rise and decay times in the range of 27–38 minutes and 1.3–2.4 hr, respectively, indicating rapid rise and slower decay phases. The flare frequency for HR 1099 is one flare per rotation period. Time-resolved spectroscopy reveals peak flare temperatures of 39.44, 35.96, and 32.48 MK, emission measures of 7 × 10 ^53 –8 × 10 ^54 cm ^−3 , global abundances of 0.250, 0.299, and 0.362 Z _⊙ , and peak X-ray luminosities of 10 ^31.21−32.29 erg s ^−1 . The quiescent state is modeled with a three-temperature plasma maintained at 3.02, 6.96, and 12.53 MK. Elemental abundances during quiescent and flaring states exhibit the inverse-first ionization potential (i-FIP) effect. We have conducted a comparative analysis of coronal abundances with previous studies and found evidence supporting the i-FIP effect. The derived flare semi-loop lengths of 6–8.9 × 10 ^10 cm were found to be comparable to the other flares detected on HR 1099; however, they are significantly larger than typical solar flare loops. The estimated flare energies, ranging from 10 ^35.83−37.03 erg, classify these flares as super-flares. The magnetic field strengths of the loops are found to be in the range of 350–450 G. We diagnose the physical conditions of the flaring corona in HR 1099 through the observations of superflares and provide inference on the plasma processes.
- Published
- 2024
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