Your search keyword '"stars: flare"' showing total 648 results

1. FCN4Flare: fully convolution neural networks for flare detection.

Author

Jia, Minghui, Luo, A-Li, and Qiu, Bo

Subjects

*CONVOLUTIONAL neural networks, *HABITABLE zone (Outer space), *HABITABLE planets, *MISSING data (Statistics), *SCIENTIFIC discoveries, *STELLAR activity, *DEEP learning

Abstract

Stellar flares offer invaluable insights into stellar magnetic activity and exoplanetary environments. Automated flare detection enables exploiting vast photometric data sets from missions like Kepler. This paper presents FCN4Flare, a deep learning approach using fully convolutional networks (FCN) for precise point-to-point flare prediction regardless of light-curve length. Key innovations include the NaN Mask to handle missing data automatedly, and the Mask Dice loss to mitigate severe class imbalance. Experimental results show that FCN4Flare significantly outperforms previous methods, achieving a Dice coefficient of 0.64 compared to the state-of-the-art of 0.12. Applying FCN4Flare to Kepler-LAMOST data, we compile a catalogue of 30 285 high-confidence flares across 1426 stars. Flare energies are estimated and stellar/exoplanet properties analysed, identifying pronounced activity for an M-dwarf hosting a habitable zone planet. This work overcomes limitations of prior flare detection methods via deep learning, enabling new scientific discoveries through analysis of photometric time-series data. Code is available at https://github.com/NAOC-LAMOST/fcn4flare [ABSTRACT FROM AUTHOR]

Published

2025

2. Variations of flare energy release behaviour and magnetic loop characteristics versus absolute stellar parameters.

Author

Yoldaş, E and Dal, H A

Subjects

*ENERGY levels (Quantum mechanics), *ECLIPSING binaries, *STARS, *STATISTICAL models, *STATISTICS

Abstract

In this paper, we examine how stellar flare activity varies with evolution stage, rotation period, and spectral type. To do this, we examine the distributions of the flare equivalent duration on a logarithmic scale, which we consider as an indicator of the maximum energy level that a star can reach in white-light flares. We conduct these analyses using two distinct statistical models of data obtained from white-light flare patrols of 33 stars. These models are the one-phase exponential association (OPEA) and cumulative flare frequency models. The results show that the value of the OPEA model parameter Plateau has a linear relationship with the stellar B – V colour index and the rotation period. In addition, it is shown that flare time-scales, and therefore the maximum magnetic loop height that stars can have, vary according to the evolutionary stage of the star. Finally, it is concluded that the cumulative flare frequency parameters of the stars are not as effective as the OPEA parameters at exhibiting these variations. [ABSTRACT FROM AUTHOR]

Published

2024

3. Coronal and chromospheric activity of Teegarden's star.

Author

Fuhrmeister, B., Schmitt, J. H. M. M., Reiners, A., Czesla, S., Béjar, V. J. S., Caballero, J., Eislöffel, J., Henning, Th., Morales, J. C., Quirrenbach, A., Ribas, I., Robrade, J., Schneider, P. C., and Zechmeister, M.

Subjects

*STELLAR chromospheres, *CORONAL mass ejections, *COOL stars (Astronomy), *HARD X-rays, *OBSERVATORIES, *SOLAR flares

Abstract

Teegarden's star is a late-type M-dwarf planet host, typically showing only rather low levels of activity. In this paper we present an extensive characterisation of this activity at photospheric, chromospheric, and coronal levels. We specifically investigated TESS observations of Teegarden's star, which showed two very large flares with an estimated flare fluence between 1029 and 1032 erg comparable to the largest solar flares. We furthermore analysed nearly 300 CARMENES spectra and 11 ESPRESSO spectra covering all the usually used chromospheric lines in the optical from the Ca II H & K lines at 3930 Å to the He I infrared triplet at 10 830 Å. These lines show different behaviour: The He I infrared triplet is the only one absent in all spectra, some lines show up only during flares, and others are always present and highly variable. Specifically, the Hα line is more or less filled in during quiescence; however, the higher Balmer lines are still observed in emission. Many chromospheric lines show a correlation with Hα variability, which, in addition to stochastic behaviour, shows systematic behaviour on different timescales including the rotation period. Moreover, we found several flares and also report hints of an erupting prominence, which may have led to a coronal mass ejection. Finally, we present X-ray observations of Teegarden's star (i.e. a discovery pointing obtained with the Chandra observatory) and an extensive study with the XMM-Newton observatory, which observed two large flares. One of these showed clear signatures of the Neupert effect, suggesting the production of hard X-rays in the system. [ABSTRACT FROM AUTHOR]

Published

2024

4. Novel scaling laws to derive spatially resolved flare and CME parameters from sun-as-a-star observables.

Author

Mohan, Atul, Gopalswamy, Natchimuthuk, Raju, Hemapriya, and Akiyama, Sachiko

Subjects

*STELLAR radiation, *SOLAR radiation, *SOLAR flares, *MAGNETIC reconnection, *PARTICLE acceleration, *CORONAL mass ejections, *SOLAR radio bursts

Abstract

Coronal mass ejections (CMEs) are often associated with X-ray (SXR) flares powered by magnetic reconnection in the low corona, while the CME shocks in the upper corona and interplanetary (IP) space accelerate electrons often producing the type II radio bursts. The CME and the reconnection event are part of the same energy release process as highlighted by the correlation between reconnection flux (ϕrec) that quantifies the strength of the released magnetic free energy during the SXR flare, and the CME kinetic energy that drives the IP shocks leading to type II bursts. Unlike the Sun, these physical parameters cannot be directly inferred in stellar observations. Hence, scaling laws between unresolved sun-as-a-star observables, namely SXR luminosity (LX) and type II luminosity (LR), and the physical properties of the associated dynamical events are crucial. Such scaling laws also provide insights into the interconnections between the particle acceleration processes across low-corona to IP space during solar-stellar "flare-CME-type II" events. Using long-term solar data in the SXR to radio waveband, we derived a scaling law between two novel power metrics for the flare and CME-associated processes. The metrics of "flare power" (Pflare = √(LXϕrec)) and "CME power" (PCME = √(LRVCME2)), where VCME is the CME speed, scale as Pflare ∝ PCME0.76 ± 0.04. In addition, LX and ϕrec show power-law trends with PCME with indices of 1.12 ± 0.05 and 0.61 ± 0.05, respectively. These power laws help infer the spatially resolved physical parameters, VCME and ϕrec, from disk-averaged observables, LX and LR during solar-stellar flare-CME-type II events. [ABSTRACT FROM AUTHOR]

Published

2024

5. Unexpected stratification in the equivalent-duration distributions of flare stars.

Author

Yoldaş, E and Dal, H A

Subjects

*ECLIPSING binaries, *STATISTICAL models, *DATA analysis, *TELESCOPES, *STATISTICS

Abstract

In this study, the results obtained from the statistical models of flares observed with ground-based telescopes and TESS observations for the UV Ceti-type stars AD Leo and V1005 Ori are presented. The distribution of flare equivalent duration versus total flare duration for the flares of both stars, observed with different telescopes, has been modelled using the one-phase exponential association (OPEA) model. Although no bifurcation was observed in the models derived with the flare data of V1005 Ori, the OPEA model exhibited bifurcation in almost all observation data of AD Leo. While many similar studies have shown that such models derived for a star do not vary over time and exhibit a single distribution in the same observation season, the stratification in AD Leo's distributions and consequently in its model is an unexpected result. [ABSTRACT FROM AUTHOR]

Published

2024

6. Separating states in astronomical sources using hidden Markov models: with a case study of flaring and quiescence on EV Lac.

Author

Zimmerman, Robert, van Dyk, David A, Kashyap, Vinay L, and Siemiginowska, Aneta

Subjects

*HIDDEN Markov models, *AUTOREGRESSIVE models, *LIGHT curves, *MARKOV processes, *HIGH temperatures, *DATA analysis

Abstract

We present a new method to distinguish between different states (e.g. high and low, quiescent and flaring) in astronomical sources with count data. The method models the underlying physical process as latent variables following a continuous-space Markov chain that determines the expected Poisson counts in observed light curves in multiple passbands. For the underlying state process, we consider several autoregressive processes, yielding continuous-space hidden Markov models of varying complexity. Under these models, we can infer the state that the object is in at any given time. The continuous state predictions from these models are then dichotomized with the help of a finite mixture model to produce state classifications. We apply these techniques to X-ray data from the active dMe flare star EV Lac, splitting the data into quiescent and flaring states. We find that a first-order vector autoregressive process efficiently separates flaring from quiescence: flaring occurs over 30 per cent–40 per cent of the observation durations, a well-defined persistent quiescent state can be identified, and the flaring state is characterized by higher plasma temperatures and emission measures. [ABSTRACT FROM AUTHOR]

Published

2024

7. SNAD catalogue of M-dwarf flares from the Zwicky Transient Facility.

Author

Voloshina, A S, Lavrukhina, A D, Pruzhinskaya, M V, Malanchev, K L, Ishida, E E O, Krushinsky, V V, Aleo, P D, Gangler, E, Kornilov, M V, Korolev, V S, Russeil, E, Semenikhin, T A, Sreejith, S, Volnova, A A, and team), (The SNAD

Subjects

*MACHINE learning, *LIGHT curves, *COOL stars (Astronomy), *DATA release, *DATA analysis

Abstract

Most of the stars in the Universe are M spectral class dwarfs, which are known to be the source of bright and frequent stellar flares. In this paper, we propose new approaches to discover M-dwarf flares in ground-based photometric surveys. We employ two approaches: a modification of a traditional method of parametric fit search and a machine learning algorithm based on active anomaly detection. The algorithms are applied to Zwicky Transient Facility (ZTF) data release 8, which includes the data from the ZTF high-cadence survey, allowing us to reveal flares lasting from minutes to hours. We analyse over 35 million ZTF light curves and visually scrutinize 1168 candidates suggested by the algorithms to filter out artefacts, occultations of a star by an asteroid, and other types of known variable objects. The result of this analysis is the largest catalogue of ZTF flaring stars to date, representing 134 flares with amplitudes ranging from −0.2 to −4.6 mag, including repeated flares. Using Pan-STARRS DR2 colours, we assign a spectral subclass to each object in the sample. For 13 flares with well-sampled light curves and available geometric distances from Gaia DR3, we estimate the bolometric energy. This research shows that the proposed methods combined with the ZTF's cadence strategy are suitable for identifying M-dwarf flares and other fast transients, allowing for the extraction of significant astrophysical information from their light curves. [ABSTRACT FROM AUTHOR]

Published

2024

8. Flare-related plasma motions in the outer atmosphere of the RS CVn-type star II Peg.

Author

Cao, Dongtao and Gu, Shenghong

Subjects

*STELLAR magnetic fields, *CORONAL mass ejections, *STARS, *CONDENSATION (Meteorology), *SOLAR flares, SOLAR filaments

Abstract

Analogous to solar flares, stellar flares are dramatic explosions in the atmosphere, which may be accompanied by prominence eruptions, coronal mass ejections (CMEs), and other forms of plasma motion. Based on time-resolved spectroscopic observations of the RS CVn-type star II Peg, we aim to search for the potential plasma motions associated with flares. In these observations, we detected part of the gradual decay phase of an optical flare, for which we find a lower limit on the energy of the Hα line of 6.03 × 1033 erg. Converting this Hα energy, we find a bolometric white-light energy of 3.10 × 1035 erg. Moreover, a secondary peak is also observed. After removing a quiescence reference, the Hα residual shows an asymmetric behavior, including both a blueshifted and a redshifted emission component. The former component has a bulk velocity of about −180 km s−1 and extends its velocity to more than −350 km s−1. This phenomenon is likely caused by a prominence eruption event or a chromospheric evaporation process. The latter emission component has a bulk velocity of 130–70 km s−1 and extends its velocity to nearly 400 km s−1. We attribute the redshifted emission component to one or a combination of several possible scenarios: flare-driven coronal rain, chromospheric condensation, backward-directed prominence eruption close to the stellar limb, or falling material in a prominence eruption. The minimum masses of the moving plasmas resulting in the blueshifted and redshifted emission components are estimated to be 0.56 × 1020 g and 1.74 × 1020 g, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

9. Variable circularly polarized radio emission from the young stellar object [BHB2007]-1: Another ingredient of a unique system.

Author

Kaur, Simranpreet, Girart, Josep M., Viganò, Daniele, Monge, Álvaro Sánchez, Cleeves, L. Ilsedore, Zurlo, Alice, Del Sordo, Fabio, Morata, Òscar, Bhowmik, Trisha, and Alves, Felipe O.

Subjects

*STELLAR magnetic fields, *STELLAR winds, *LOW mass stars, *PROTOPLANETARY disks, *RADIO sources (Astronomy)

Abstract

The young stellar object [BHB2007]-1 has been extensively studied in the past at radio, millimeter, and infrared wavelengths. It has revealed a gap in the disk and previous observations have claimed possible emission from a sub-stellar object undergoing formation, in correspondence to the disk gap. In this work, we analyzed a set of eight Karl G. Jansky Very Large Array (VLA) observations at 15 GHz and spread out over a month. We inferred a slowly variable emission from the star, with a ∼15 − 20% circular polarization detected in two of the eight observations. The latter can be related to the magnetic fields in the system, while the unpolarized and moderately varying component can be indicative of free–free emission associated with jet induced shocks or interactions of the stellar wind, with dense surrounding material. We discarded any relevant short-flaring activities when sampling the radio light curves down to 10 seconds and found no clear evidence of emission from the sub-stellar object inferred from past observations, although deeper observations could shed further light on this. [ABSTRACT FROM AUTHOR]

Published

2024

10. Optically quiet, but FUV loud: results from comparing the far-ultraviolet predictions of flare models with TESS and HST.

Author

Jackman, James A G, Shkolnik, Evgenya L, Loyd, R O Parke, and Richey-Yowell, Tyler

Subjects

*LOW mass stars, *CORRECTION factors, *PREDICTION models, *PHOTOMETRY, *SPECTROMETRY

Abstract

The far-ultraviolet (FUV) flare activity of low-mass stars has become a focus in our understanding of the exoplanet atmospheres and how they evolve. However, direct detection of FUV flares and measurements of their energies and rates are limited by the need for space-based observations. The difficulty of obtaining such observations may push some works to use widely available optical data to calibrate multiwavelength spectral models that describe UV and optical flare emission. These models either use single temperature blackbody curves to describe this emission, or combine a blackbody curve with archival spectra. These calibrated models would then be used to predict the FUV flare rates of low-mass stars of interest. To aid these works, we used TESS optical photometry and archival HST FUV spectroscopy to test the FUV predictions of literature flare models. We tested models for partially (M0–M2) and fully convective (M4–M5) stars, 40 Myr and field age stars, and optically quiet stars. We calculated FUV energy correction factors that can be used to bring the FUV predictions of tested models in line with observations. A flare model combining optical and NUV blackbody emission with FUV emission based on HST observations provided the best estimate of FUV flare activity, where others underestimated the emission at all ages, masses, and activity levels, by up to a factor of 104 for combined FUV continuum and line emission and greater for individual emission lines. We also confirmed previous findings that showed optically quiet low-mass stars exhibit regular FUV flares. [ABSTRACT FROM AUTHOR]

Published

2024

11. Stellar flares are far-ultraviolet luminous.

Author

Berger, Vera L, Hinkle, Jason T, Tucker, Michael A, Shappee, Benjamin J, van Saders, Jennifer L, Huber, Daniel, Reep, Jeffrey W, (孙旭东), Xudong Sun, and (杨凯), Kai E Yang

Subjects

*SPECTRAL energy distribution, *LOW mass stars, *LIGHT curves, *GALACTIC evolution, *STARS

Abstract

We identify 182 flares on 158 stars within 100 pc of the Sun in both the near-ultraviolet (NUV; |$1750\!-\!2750$|  Å) and far-ultraviolet (FUV; |$1350\!-\!1750$|  Å) using high-cadence light curves from the Galaxy Evolution Explorer. Ultraviolet (UV) emission from stellar flares plays a crucial role in determining the habitability of exoplanetary systems. However, whether such UV emission promotes or threatens such life depends strongly on the energetics of these flares. Most studies assessing the effect of flares on planetary habitability assume a 9000 K blackbody spectral energy distribution that produces more NUV flux than FUV flux (⁠|$\mathcal {R} \equiv F_{\rm FUV} / F_{\rm NUV} \approx \frac{1}{6}$|⁠). Instead, we observe the opposite with the excess FUV reaching |$\mathcal {R} \approx \frac{1}{2}\!-\!2$|⁠ , roughly |$3\!-\!12$| times the expectation of a 9000 K blackbody. The ratio of FUV to NUV time-integrated flare energies is 3.0 times higher on average than would be predicted by a constant 9000 K blackbody during the flare. Finally, we find that the FUV/NUV ratio at peak tentatively correlates (⁠|${\sim} 2 \sigma$| significance) both with total UV flare energy and with the G  − RP colour of the host star. On average, we observe higher FUV/NUV ratios at peak in |$E_{\text{UV}}\gt 10^{32}$|  erg flares and in flares on fully convective stars. [ABSTRACT FROM AUTHOR]

Published

2024

12. Observations and detectability of young Suns' flaring and CME activity in optical spectra.

Author

Leitzinger, M, Odert, P, and Greimel, R

Subjects

*CORONAL mass ejections, *SOLAR flares, *OPTICAL spectra, *OPTICAL rotation, *STELLAR chromospheres, *STARS, *SOLAR spectra

Abstract

The Sun's history is still a subject of interest to modern astrophysics. Observationally constrained rates of Coronal Mass Ejections (CMEs) of young solar analogues are still lacking, as those require dedicated monitoring. We present medium-resolution optical spectroscopic monitoring of a small sample of bright and prominent solar analogues over a period of 3 yr using the 0.5-m telescope at observatory Lustbühel Graz (OLG) of the University of Graz, Austria. The aim is the detection of flares and CMEs from those spectra. In more than 1700 h of spectroscopic monitoring, we found signatures of four flares and one filament eruption on EK Dra which has been reported in previous literature, but we complementarily extended the data to cover the latter phase. The other stars did not reveal detectable signatures of activity. For these non-detections, we derive upper limits of occurrence rates of very massive CMEs, which are detectable with our observational setup, ranging from 0.1 to 2.2 d−1, but these may be even smaller than the given rates considering observational biases. Furthermore, we investigate the detectability of flares/CMEs in OLG spectra by utilizing solar 2D Hα spectra from Mees Solar Observatory. We find that solar-sized events are not detectable within our observations. By scaling up the size of the solar event, we show that with a fractional active region area of 18 per cent in residual spectra and 24 per cent in equivalent width time series derived from the same residuals that solar events are detectable if they had hypothetically occurred on HN Peg. [ABSTRACT FROM AUTHOR]

Published

2024

13. The corona of a fully convective star with a near-polar flare.

Author

Ilin, E., Poppenhäger, K., Stelzer, B., and Dsouza, D.

Subjects

*STELLAR rotation, *MAGNETIC flux density, *LOW mass stars, *SOFT X rays, *MAGNETIC flux, *SOLAR corona, *SOLAR flares

Abstract

Context. In 2020, the Transiting Exoplanet Survey Satellite (TESS) observed a rapidly rotating M7 dwarf, TIC 277539431, producing a flare at 81° latitude, the highest latitude flare located to date. This is in stark contrast to solar flares that occur much closer to the equator, typically below 30°. The mechanisms that allow flares at high latitudes to occur are poorly understood. Aims. We studied five sectors of TESS monitoring, and obtained 36 ks of XMM-Newton observations to investigate the coronal and flaring activity of TIC 277539431. Methods. From the observations, we infer the optical flare frequency distribution; flare loop sizes and magnetic field strengths; the soft X-ray flux, luminosity, and coronal temperatures; as well as the energy, loop size, and field strength of a large flare in the XMM-Newton observations. Results. We find that the corona of TIC 277539431 does not differ significantly from other low-mass stars on the canonical saturated activity branch with respect to coronal temperatures and flaring activity, but shows lower luminosity in soft X-ray emission by about an order of magnitude, consistent with other late M dwarfs. Conclusions. The lack of X-ray flux, the high-latitude flare, the star's viewing geometry, and the otherwise typical stellar corona taken together can be explained by the migration of flux emergence to the poles in rapid rotators like TIC 277539431 that drain the star's equatorial regions of magnetic flux, but preserve its ability to produce powerful flares. [ABSTRACT FROM AUTHOR]

Published

2024

14. X-ray variability of the triplet star system LTT1445 and evaporation history of the planets around its A component.

Author

Rukdee, S., Buchner, J., Burwitz, V., Poppenhäger, K., Stelzer, B., and Predehl, P.

Subjects

*NATURAL satellite atmospheres, *INNER planets, *PLANETARY atmospheres, *PLANETARY systems, *ATMOSPHERE

Abstract

Context. The high-energy environments of host stars could prove deleterious for their planets. It is crucial to ascertain this contextual information to characterize the atmospheres of terrestrial exoplanets. Aims. We aim to fully characterize a unique triple system, LTT1445, with three known rocky planets around LTT 1445A. Methods. We studied the X-ray irradiation and flaring of this system based on a new 50 ks Chandra observation, which is divided into 10 ks, 10 ks, and 30 ks segments conducted two days apart, and two months apart, respectively. These data were complemented by an archival Chandra observation approximately 1 yr earlier and repeated observations with extended ROentgen Survey with an Imaging Telescope Array (eROSITA), the soft X-ray instrument on the Spectrum-Roentgen-Gamma (SRG) mission. This enabled the investigation of X-ray flux behavior across multiple time scales. With the observed X-ray flux from the exoplanet host star A, we estimated the photo-evaporation mass loss of each exoplanet. With the planet modeling package, VPLanet, we predicted the evolution and anticipated current atmospheric conditions. Results. Our Chandra observations indicate that LTT 1445C is the dominant X-ray source, with additional contribution from LTT 1445B. We find that LTT 1445A, a slowly rotating star, exhibits no significant flare activity in the new Chandra dataset. Comparing the flux incident occuring on the exoplanets, we find that LTT 1445BC components do not pose a greater threat to the planets orbiting LTT 1445A than the emission from A itself. According to the results from the simulation, LTT 1445Ad could have the capacity to retain its water surface. [ABSTRACT FROM AUTHOR]

Published

2024

15. A fast-cadenced search for gamma-ray burst orphan afterglows with the Deeper, Wider, Faster programme.

Author

Freeburn, James, Cooke, Jeff, Möller, Anais, Dobie, Dougal, Zhang, Jielai, Salafia, Om Sharan, Siellez, Karelle, Auchettl, Katie, Goode, Simon, Abbott, Timothy M C, Andreoni, Igor, Allen, Rebecca, Van Bemmel, Natasha, and Webb, Sara

Subjects

*GAMMA ray bursts, *MACHINE learning, *STARS, *ORPHANS, *DARK energy, *ARCHIVAL resources

Abstract

The relativistic outflows that produce long gamma-ray bursts (LGRBs) can be described by a structured jet model where prompt |$\gamma$| -ray emission is restricted to a narrow region in the jet's core. Viewing the jet off-axis from the core, a population of afterglows without an associated GRB detection can be predicted. In this work, we conduct an archival search for these 'orphan' afterglows (OAs) with minute-cadence, deep (⁠|$g\sim 23$|⁠) data from the Dark Energy Camera (DECam) taken as part of the Deeper, Wider, Faster programme (DWF). We introduce a method to select fast-evolving OA candidates within DWF data that comprises a machine learning model, based on a realistic synthetic population of OAs. Using this classifier, we recover 51 OA candidates. Of these candidates, 42 are likely flare events from M-class stars. The remaining nine possess quiescent, coincident sources in archival data with angular profiles consistent with a star and are inconsistent with the expected population of LGRB host galaxies. We therefore conclude that these are likely Galactic events. We calculate an upper limit on the rate of OAs down to |$g\lt 22$| AB mag of 7.46 deg |$^{-2}$| yr |$^{-1}$| using our criteria and constrain possible jet structures. We also place an upper limit of the characteristic angle between the |$\gamma$| -ray-emitting region and the jet's half-opening angle. For a smooth power law and a power law with core jet model, respectively, these values are |$58.3^{\circ }$| and |$56.6^{\circ }$|⁠ , for a power-law index of 0.8 and |$75.3^{\circ }$| and |$76.8^{\circ }$| for a power-law index of 1.2. [ABSTRACT FROM AUTHOR]

Published

2024

16. Searching for gamma-ray emission from stellar flares.

Author

(宋宇哲), Yuzhe Song, Paglione, Timothy A D, and Ilin, Ekaterina

Subjects

*SOLAR flares, *FERMI Gamma-ray Space Telescope (Spacecraft), *GAMMA ray bursts, *DWARF stars, *MAIN sequence (Astronomy), *STELLAR populations, *RELATIVISTIC particles

Abstract

Flares from magnetically active dwarf stars should produce relativistic particles capable of creating γ-rays. So far, the only isolated main-sequence star besides the Sun to have been detected in γ-rays is TVLM 513−46546. Detecting γ-ray flares from more dwarf stars can improve our understanding of their magnetospheric properties, and could also indicate a diminished likelihood of their planets' habitability. In this work, we stack data from the Fermi Gamma-ray Space Telescope during a large number of events identified from optical and X-ray flare surveys. We report an upper limit of γ-ray emission from the population of flare stars. Stacking results towards control positions are consistent with a non-detection. We compare these results to observed solar γ-ray flares and against a model of emission from neutral pion decay. The upper limit is consistent with solar flares when scaled to the flare energies and distances of the target stars. As with solar flares, the neutral pion decay mechanism for γ-ray production is also consistent with these results. [ABSTRACT FROM AUTHOR]

Published

2024

17. Hydrogen recombination continua in stellar flares.

Author

Heinzel, P

Subjects

*DWARF stars, *SOLAR flares, *ELECTRON density, *HYDROGEN, *STARS, *SOLAR chromosphere

Abstract

An increasing interest in stellar flares stimulated various modelling approaches in order to analyse the observed flare fluxes. A particular interest was focused on photometric data obtained from Kepler and TESS satellites which detected thousands of flares on cool dwarf stars, including extremely energetic superflares. Radiation-hydrodynamical simulations, together with a rather rare broad-band spectroscopy, indicate much larger densities in the superflare chromospheres as compared to solar flares. Formation of hydrogen recombination continua under such different densities ranging from 1013 to 1015 cm−3 or more is governed by physics of optically thin to largely thick plasmas, the continuum optical thickness being within the range of four orders of magnitude. Various authors presented simple approximate methods to analyse the photometric data from Kepler or TESS under such diverse regimes of physical conditions. In this letter, we summarize the general physical approach and compute the hydrogen recombination spectra under the above range of electron densities. We show the theoretical contrast with respect to quiet-star continuum for two characteristic stars of G and dMe type. Based on that we distinguish three regimes of the continuum formation and discuss the applicability of various simple approaches. [ABSTRACT FROM AUTHOR]

Published

2024

18. Time-domain analysis of multiwaveband flares from AD Leonis.

Author

Zhang, Xuying, Li, Jixuan, Gao, Yang, and Qian, Lei

Subjects

*STELLAR radiation, *STELLAR magnetic fields, *STELLAR activity, *X-ray bursts, *RADIO telescopes, *SOLAR flares

Abstract

Radio bursts of magnetically active stars reveal the intensity and activity of the stellar magnetic field. They may also be related to the planets around the stars. We monitored a radio-active star, AD Leonis, 3000 s d−1 for 17 d in 2020 November, and 5000 s d−1 for 5 d in 2023 July with the Five-hundred-meter Aperture Spherical radio Telescope (FAST). Based on the simultaneous flux increases in Stokes I and Stokes V, one left-hand circular polarized radio burst is identified. The |$\sim 50~{{\ \rm per\ cent}}$| degree of circular polarization indicates the burst being originated from non-thermal radiation related to the stellar magnetic field. Combining the newly discovered burst with previous observations of radio and X-ray bursts from AD Leonis, we did a periodicity analysis for the 49 bursts in total. No periodicity with confidence level >3σ is found, while a candidate period of 3.04 d at ≈2σ confidence level is presented and discussed. Results of recent FAST observations and the periodicity analysis suggest a more compact campaign of observation towards this source, from which a more optimistic result of period search could be achieved. [ABSTRACT FROM AUTHOR]

Published

2024

19. Impacts of energetic particles from T Tauri flares on inner protoplanetary discs.

Author

Brunn, V, Rab, Ch, Marcowith, A, Sauty, C, Padovani, M, and Meskini, C

Subjects

*PROTOPLANETARY disks, *PLANETESIMALS, *SOLAR flares, *MAGNETIC reconnection, *ACCRETION disks, *KINETIC energy, *PARTICLE acceleration

Abstract

T Tauri stars are known to be magnetically active stars subject to strong flares observed in X-rays. These flares are likely due to intense magnetic reconnection events during which a part of the stored magnetic energy is converted into kinetic energy of supra-thermal particles. Since T Tauri stars are surrounded by an accretion disc, these particles may influence the disc dynamics and chemistry. This work continues on a previous stationary model, which showed that energetic particles accelerated during flares can produce a strong ionization rate at high column densities in the inner accretion disc. The present model includes non-stationary sequences of flaring events sampled by a Chandra X-ray survey of nearby young stellar objects. We calculate the averaged ionization rate expected in a radius range 0.08–0.6 au from the central star. We confirm that energetic particles produced by the flares dominate the ionization of the disc up to column densities of |$10^{25}~\rm {cm^{-2}}$|⁠. We further study the main consequences of this additional source of ionization on the viscosity, the accretion rate, the volumetric heating rate, and the chemical complexity of inner protoplanetary discs. [ABSTRACT FROM AUTHOR]

Published

2024

20. Chandra X-ray analysis of Herbig Ae/Be stars.

Author

Anilkumar, Hema, Mathew, Blesson, Jithesh, V, Kartha, Sreeja S, Manoj, P, Narang, Mayank, and Chavali, Mahathi

Subjects

*STARS, *CONVECTION (Astrophysics), *LOW mass stars, *ACCRETION (Astrophysics), *X-rays, *PLASMA temperature, *X-ray binaries, *CORONAL mass ejections

Abstract

Herbig Ae/Be (HAeBe) stars are intermediate-mass pre-main-sequence stars, characterized by infrared (IR) excess and emission lines. They are observed to emit X-rays, whose origin is a matter of discussion and not settled yet. X-ray emission is not expected in HAeBe stars, as they lack the subsurface convective zone. In this study, we retrieved observations from the Chandra archive for 62 HAeBe stars, among which 44 sources (detection fraction ∼71  per cent) were detected in X-rays, with 7 being new detections. We use this sample as a test bed to conduct a comparative analysis of the X-ray properties of HAeBe stars and their low-mass counterparts, T Tauri stars (TTSs). Further, we compare the X-ray properties of HAeBe stars and TTSs with optical and IR properties to constrain the X-ray emission mechanism in HAeBe stars. We found no correlation between X-ray emission and disc properties of HAeBe stars, confirming that X-rays are not related to accretion shocks. About 56  per cent of HAeBe stars without any known subarcsec companions have lower plasma temperatures (kT ≤ 2 keV). We observe flaring/variability in HAeBe stars with confirmed low-mass companions. These stars show plasma temperatures > 2 keV, similar to TTSs. Guided by this information, we discuss the role of a T Tauri companion for X-ray emission seen in our sample of HAeBe stars. From the results obtained in this paper, we suggest that X-ray emission from HAeBe stars may not be related to accretion shocks or hidden TTS, but rather can be due to magnetically driven coronal emission. [ABSTRACT FROM AUTHOR]

Published

2024

21. Superflare rate variability on M dwarfs.

Author

Crowley, James, Wheatland, Michael S, and Yang, Kai

Subjects

*LOW mass stars, *SOLAR flares

Abstract

M dwarfs are often highly flare productive, and changes in the rate of flaring can potentially affect the radiation and energetic particles an exoplanet is exposed to. Rate variability has been found to be rare on G-type stars, and there has been limited study of the variability of flaring on M dwarfs. Using data from the TESS mission up to Observation Sector 66, we analyse 658 stars ranging from K7 to M5 to test for superflare rate variability by calculating an optimal piecewise constant-rate model for flare occurrence using a Bayesian algorithm and identify 66 stars with rate changes, a larger proportion than our previous study into G-type stars (7 out of 270 stars). We find that rate variability does not depend on the stellar parameters for our sample. We investigate how the flare-frequency distribution for these stars varies and whether this variation affects exoplanet habitability. No stars in our sample provide sufficient UV flux to support prebiotic chemistry. We investigate the phase distributions on the rate variable stars, finding 11 cases of potential phase dependence in flaring across seven stars. We also compare the Bayesian method to another measure of activity, the fraction of flux emitted through flares, and do not observe a consistent relationship between this flaring activity metric and the optimal Bayesian model. We discuss the possible reasons for the discrepancy and identify a problem with the flaring activity metric due to the power-law distribution of the flare events. [ABSTRACT FROM AUTHOR]

Published

2024

22. Star-Forming Regions

Author

Sciortino, Salvatore, Bambi, Cosimo, editor, and Santangelo, Andrea, editor

Published

2024

23. A dragon's flame of many colours: multiwavelength observations of flares from the active M binary CR Draconis.

Author

Jackman, James A G, Shkolnik, Evgenya L, Loyd, R O Parke, Richey-Yowell, Tyler, Llama, Joe, Boyd, David, Buchheim, Bob, Iadevaia, David, Martin, Jack, Sims, Forrest, Walker, Gary, and Wetmore, John

Subjects

*OPTICAL spectroscopy, *DRAGONS, *BINARY stars, *PHOTOMETRY

Abstract

We present the results of a multiwavelength Professional–Amateur campaign to study the behaviour of flares from the active M1.5V star binary CR Draconis. CR Dra was observed with Transiting Exoplanet Survey Satellite (TESS) 20-s photometry, Swift near-ultraviolet (NUV) grism spectroscopy and with ground-based optical photometry and spectroscopy from a global collaboration of amateur astronomers. We detected 14 flares with TESS and Swift simultaneously, one of which also had simultaneous ground-based photometry and spectroscopy. We used the simultaneous two-colour optical and NUV observations to characterize the temperature evolution of the flare and test the accuracy of using optical data to predict NUV emission. We measured a peak temperature of |$7100^{+150}_{-130}$| K for this flare, cooler than the typically assumed 9000 K blackbody model used by flare studies. We also found that the 9000 K blackbody overestimated the NUV flux for other flares in our sample, which we attributed to our Swift observations occurring during flare decays, highlighting the phase-dependence for the accuracy of flare models. [ABSTRACT FROM AUTHOR]

Published

2024

24. Multi-epoch sampling of the radio star population with the Australian SKA Pathfinder.

Author

Pritchard, Joshua, Murphy, Tara, Heald, George, Wheatland, Michael S, Kaplan, David L, Lenc, Emil, O'Brien, Andrew, and Wang, Ziteng

Subjects

*RADIO sources (Astronomy), *STELLAR populations, *DENSITY of stars, *CIRCULAR polarization, *POPULATION statistics, *SOLAR radio bursts

Abstract

The population of radio-loud stars has to date been studied primarily through either targeted observations of a small number of highly active stars or wide-field, single-epoch surveys that cannot easily distinguish stellar emission from background extragalactic sources. As a result it has been difficult to constrain population statistics such as the surface density and fraction of the population producing radio emission in a particular variable or spectral class. In this paper, we present a sample of 36 radio stars detected in a circular polarization search of the multi-epoch Variables and Slow Transients (VAST) pilot survey with ASKAP at 887.5 MHz. Through repeat sampling of the VAST pilot survey footprint we find an upper limit to the duty cycle of M-dwarf radio bursts of |$8.5 \,\rm {per\,cent}$|⁠ , and that at least 10 ± 3 |$\rm {per\,cent}$| of the population should produce radio bursts more luminous than |$10^{15} \,\rm {erg}\mathrm{s}^{-1} \,\mathrm{Hz}^{-1}$|⁠. We infer a lower limit on the long-term surface density of such bursts in a shallow |$1.25 \,\mathrm{m}\rm {Jy}\rm\ {PSF}^{-1}$| sensitivity survey of |${9}^{\, +{11}}_{-{7}}\times 10^{-3}$|   |$\,\deg ^{-2}$| and an instantaneous radio star surface density of 1.7 ± 0.2 × 10−3   |$\,\deg ^{-2}$| on 12 min time-scales. Based on these rates we anticipate ∼200 ± 50 new radio star detections per year over the full VAST survey and |${41\, 000}^{\, +{10\, 000}}_{-{9\, 000}}$| in next-generation all-sky surveys with the Square Kilometre Array. [ABSTRACT FROM AUTHOR]

Published

2024

25. Multiwavelength observation of an active M-dwarf star EV Lacertae and its stellar flare accompanied by a delayed prominence eruption.

Author

Inoue, Shun, Enoto, Teruaki, Namekata, Kosuke, Notsu, Yuta, Honda, Satoshi, Maehara, Hiroyuki, Zhang, Jiale, Lu, Hong-Peng, Uchida, Hiroyuki, Tsuru, Takeshi Go, Nogami, Daisaku, and Shibata, Kazunari

Subjects

*SOFT X rays, *SOLAR flares, *OPTICAL spectroscopy, *ELECTRON beams, *GAMMA ray bursts, *PHOTOMETRY, *NEUTRINOLESS double beta decay

Abstract

We conducted four-night multiwavelength observations of an active M-dwarf star EV Lacertae on 2022 October 24–27 with simultaneous coverage of soft X-rays (NICER; 0.2–12 keV, Swift XRT; 0.2–10 keV), near-ultraviolet (Swift UVOT/UVW2; 1600–3500 Å), optical photometry (TESS; 6000–10000 Å), and optical spectroscopy (Nayuta/MALLS; 6350–6800 Å). During the campaign, we detected a flare starting at 12:28 UTC on October 25 with a white-light bolometric energy of 3.4 × 1032 erg. At about 1 h after this flare peak, our Hα spectrum showed a blueshifted excess component at a corresponding velocity of ∼100 km s−1. This may indicate that the prominence erupted with a 1 h delay of the flare peak. Furthermore, the simultaneous 20 s cadence near-ultraviolet (NUV) and white-light curves show gradual and rapid brightening behaviors during the rising phase at this flare. The ratio of flux in NUV to white light at the gradual brightening was ∼0.49, which may suggest that the temperature of the blackbody is low (<9000 K) or the maximum energy flux of a non-thermal electron beam is less than 5 × 1011 erg cm−2 s−1. Our simultaneous observations of the NUV and white-light flare raise the issue of a simple estimation of UV flux from optical continuum data by using a blackbody model. [ABSTRACT FROM AUTHOR]

Published

2024

26. The enigmatic dance of the HD 189733A system: A quest for accretion.

Author

Colombo, S., Pillitteri, I., Petralia, A., Orlando, S., and Micela, G.

Subjects

*ACCRETION (Astrophysics), *ORIGIN of planets, *STELLAR magnetic fields, *MAGNETIC flux density, *STELLAR winds, *RAYLEIGH-Taylor instability, *PLANETARY systems, *MAGNETIC field effects, *HOT Jupiters

Abstract

Context. Several studies suggest that the emission properties of a star can be significantly affected by its interaction with a nearby planet through magnetic fields or interaction between their respective winds. However, the actual observability of these effects remains a subject of debate. An illustrative example is the HD 189733A system: certain characteristics of its emissions have been interpreted as indicative of ongoing interactions between the star and its associated planet. Other studies attribute these characteristics to the coronal activity of the star. Aims. In this study we aimed to investigate whether the observed stellar X-ray flare events, which appear to be in phase with the planetary period in the HD 189733A system, could be attributed to the accretion of the planetary wind onto the stellar surface or if they resulted from an interaction between the planetary and stellar winds. Methods. We developed a 3D magnetohydrodynamic model with the PLUTO code that describes the system HD 189733A , including the central host star and its hot Jupiter along with their respective winds. The effects of gravity and the magnetic fields of both the star and the planet are taken into account. Results. Our analysis reveals that, in the cases examined in this study, the accretion scenario is only viable when the stellar magnetic field strength is at 5 G and the planetary magnetic field strength is at 1 G. In this scenario, the Rayleigh-Taylor instabilities lead to the formation of an accretion column that connects the star to the planet. Once formed the accretion column remains stable for the duration of the simulation. The accretion column produces an accretion rate of the order of 1012 g s−1 and shows an average density of about 107 cm−3. In the other case explored, the accretion column does not form because the Rayleigh-Taylor instability is suppressed by the stronger magnetic field intensities assumed for both the star and the planet. We synthesized the emission resulting from the shocked planetary wind and found that the total X-ray emission ranges from 5 × 1023 to 1024 erg s−1. Conclusions. In the case of accretion, the emission originating from the hotspot cannot be distinguished from the coronal activity. Also, the interaction between the planetary and stellar winds cannot be responsible for the X-ray emission, as the total emission produced is about four orders of magnitude lower than the average X-ray luminosity of the star. [ABSTRACT FROM AUTHOR]

Published

2024

27. Time resolved spectroscopy of a GRS 1915 + 105 flare during its unusual low state using AstroSat.

Author

Boked, Sajad, Maqbool, Bari, V, Jithesh, Misra, Ranjeev, Bhat, Naseer I, and Bhulla, Yashpal

Subjects

*TIME-resolved spectroscopy, *ACTIVE galactic nuclei, *BLACK holes, *X-ray spectroscopy

Abstract

Since its discovery in 1992, GRS 1915 + 105 has been among the brightest sources in the X-ray sky. However, in early 2018, it dimmed significantly and has stayed in this faint state ever since. We report on AstroSat and NuSTAR observation of GRS 1915 + 105 in its unusual low/hard state during 2019 May. We performed time-resolved spectroscopy of the X-ray flares observed in this state and found that the spectra can be fitted well using highly ionized absorption models. We further show that the spectra can also be fitted using a highly relativistic reflection dominated model, where for the lamp post geometry, the X-ray emitting source is always very close to the central black hole. For both interpretations, the flare can be attributed to a change in the intrinsic flux, rather than dramatic variation in the absorption or geometry. These reflection dominated spectra are very similar to the reflection dominated spectra reported for active galactic nuclei in their low flux states. [ABSTRACT FROM AUTHOR]

Published

2024

28. Hydrogen recombination continuum as the radiative model for stellar optical flares.

Author

Simões, Paulo J A, Araújo, Alexandre, Válio, Adriana, and Fletcher, Lyndsay

Subjects

*SOLAR flares, *SOLAR spectra, *BLACKBODY radiation, *VISIBLE spectra, *ENERGY transfer, *HYDROGEN, *SOLAR chromosphere

Abstract

The study of stellar flares has increased with new observations from CoRoT, Kepler , and TESS satellites, revealing the broad-band visible emission from these events. Typically, stellar flares have been modelled as 104 K blackbody plasma to obtain estimates of their total energy. In the Sun, white-light flares (WLFs) are much fainter than their stellar counterparts, and normally can only be detected via spatially resolved observations. Identifying the radiation mechanism for the formation of the visible spectrum from solar and stellar flares is crucial to understand the energy transfer processes during these events, but spectral data for WLFs are relatively rare, and insufficient to remove the ambiguity of their origin: photospheric blackbody radiation and/or Paschen continuum from hydrogen recombination in the chromosphere. We employed an analytical solution for the recombination continuum of hydrogen instead of the typically assumed 104 K blackbody spectrum to study the energy of stellar flares and infer their fractional area coverage. We investigated 37 events from Kepler-411 and five events from Kepler-396, using both radiation mechanisms. We find that estimates for the total flare energy from the H recombination spectrum are about an order of magnitude lower than the values obtained from the blackbody radiation. Given the known energy transfer processes in flares, we argue that the former is a physically more plausible model than the latter to explain the origin of the broad-band optical emission from flares. [ABSTRACT FROM AUTHOR]

Published

2024

29. Quantifying chaos and randomness in magnetar bursts.

Author

Yamasaki, Shotaro, Göğüș, Ersin, and Hashimoto, Tetsuya

Subjects

*MAGNETARS, *X-ray bursts, *TIME series analysis, *PHASE space

Abstract

In this study, we explore the dynamical stability of magnetar bursts within the context of the chaos-randomness phase space for the first time, aiming to uncover unique behaviours compared to various astrophysical transients, including fast radio bursts (FRBs). We analyse burst energy time series data from active magnetar sources SGR J1550−5418 and SGR J1935+2154, focusing on burst arrival time and energy differences between consecutive events. We find a distinct separation in the time domain, where magnetar bursts exhibit significantly lower randomness compared to FRBs, solar flares, and earthquakes, with a slightly higher degree of chaos. In the energy domain, magnetar bursts exhibit a broad consistency with other phenomena, primarily due to the wide distribution of chaos-randomness observed across different bursts and sources. Intriguingly, contrary to expectations from the FRB-magnetar connection, the arrival time patterns of magnetar bursts in our analysis do not exhibit significant proximity to repeating FRBs in the chaos-randomness plane. This finding may challenge the hypothesis that FRBs are associated with typical magnetar bursts but indirectly supports the evidence that FRBs may primarily be linked to special magnetar bursts like peculiar X-ray bursts from SGR J1935+2154 observed simultaneously with Galactic FRB 200428. [ABSTRACT FROM AUTHOR]

Published

2024

30. Exploring the photometric variability of ultra-cool dwarfs with TESS.

Author

Petrucci, Romina P, Gómez Maqueo Chew, Yilen, Jofré, Emiliano, Segura, Antígona, and Ferrero, Leticia V

Subjects

*ECLIPSING binaries, *SOLAR flares, *STELLAR activity, *ASTRONOMICAL transits, *LIGHT curves, *STELLAR rotation, *DISTRIBUTION (Probability theory)

Abstract

We present a photometric characterization of 208 ultra-cool dwarfs (UCDs) with spectral types between M4 and L4, from 20-s and 2-min cadence TESS light curves. We determine rotation periods for 87 objects (⁠|$\sim 42~{{\ \rm per\ cent}}$|⁠) and identify 778 flare events in 103 UCDs (⁠|$\sim 49.5~{{\ \rm per\ cent}}$|⁠). For 777 flaring events (corresponding to 102 objects), we derive bolometric energies between 2.1 × 1030 and |$1.1 \times 10^{34}\ \mathrm{erg}$|⁠ , with 56 superflare events. No transiting planets or eclipsing binaries were identified. We find that the fraction of UCDs with rotation and flaring activity is, at least, 20 per cent higher in M4–M6 spectral types than in later UCDs (M7–L4). For spectral types between M4 and L0, we measure the slope of the flare bolometric energy–duration correlation to be γ = 0.497 ± 0.058, which agrees with that found in previous studies for solar-type and M dwarfs. Moreover, we determine the slope of the flare frequency distribution to be α = −1.75 ± 0.04 for M4–M5 dwarfs, α = −1.69 ± 0.04 and α = −1.72 ± 0.1 for M6–M7 and M8–L0 dwarfs, respectively, which are consistent with previous works that exclusively analysed UCDs. These results support the idea that independently of the physical mechanisms that produce magnetic activity, the characteristics of the rotational modulation and flares are similar for both fully convective UCDs and partially convective solar-type and early-M stars. Based on the measured UCD flare distributions, we find that ultraviolet radiation emitted from flares does not have the potential to start prebiotic chemistry. [ABSTRACT FROM AUTHOR]

Published

2024

31. Unveiling the spectacular over 24-hour flare of star CD-36 3202.

Author

Bicz, K., Falewicz, R., and Pietras, M.

Subjects

*STARSPOTS, *LIGHT curves, *COOL stars (Astronomy), *LOW mass stars

Abstract

We studied the light curve of the star CD-36 3202, which was observed by TESS for the presence of stellar spots and to analyze the rotationally modulated flare that took place on TESS Barycentric Julian Date 1486.93. Our main aims are to model the light curve of this flare and to estimate its location regarding stellar spots. The flare lasted approximately 27 h. Using our new tool, findinc_mc, we managed to estimate the inclination angle of the star to 70° ± 8°. With BASSMAN, we modeled the light curve of the CD-36 3202 and estimated that three spots are present on its surface. The mean temperature of the spots was about 4000 ± 765 K, and their total area amounted to 11.61% ± 0.13% on average. We created a new tool, named MFUEA, to model rotationally modulated flares, and used it to estimate the latitude of the long-duration flare event, finding 69−1+2 deg. Our estimation of the flare location is the first recreation of the exact position of a flare in relation to starspots. The flare is placed 12° from the center of the coolest spot. This means that the flare is related to the magnetic processes above the active region represented by the spot. Removing the effects of rotational modulation from the flare light curve allowed us to correct the estimation of bolometric energy released during the event from (1.15 ± 0.35) × 1035 erg to (3.99 ± 1.22) × 1035 erg. [ABSTRACT FROM AUTHOR]

Published

2024

32. A comparative study of two X2.2 and X9.3 solar flares observed with HARPS-N: Reconciling Sun-as-a-star spectroscopy and high-spatial resolution solar observations in the context of the solar-stellar connection.

Author

Pietrow, A. G. M., Cretignier, M., Druett, M. K., Alvarado-Gómez, J. D., Hofmeister, S. J., Verma, M., Kamlah, R., Baratella, M., Amazo-Gómez, E. M., Kontogiannis, I., Dineva, E., Warmuth, A., Denker, C., Poppenhaeger, K., Andriienko, O., Dumusque, X., and Löfdahl, M. G.

Subjects

*SOLAR flares, *SOLAR telescopes, *HELIOSEISMOLOGY, *SPECTRAL lines, *SPECTROMETRY

Abstract

Context. Stellar flares cannot be spatially resolved, which complicates ascertaining the physical processes behind particular spectral signatures. Due to their proximity to Earth, solar flares can serve as a stepping stone for understanding their stellar counterparts, especially when using a Sun-as-a-star instrument and in combination with spatially resolved observations. Aims. We aim to understand the disk-integrated spectral behaviors of a confined X2.2 flare and its eruptive X9.3 successor, which had energies of 2.2 × 1031 erg and 9.3 × 1031 erg, respectively, as measured by Sun-as-a-star observations with the High Accuracy Radial velocity Planet Searcher for the Northern hemisphere (HARPS-N). Methods. The behavior of multiple photospheric (Na D1 & D2, Mg I at 5173 Å, Fe I at 6173 Å, and Mn I at 4031 Å) and chromospheric (Ca II H & K, Hα, Hβ, and He ID3) spectral lines were investigated by means of activity indices and contrast profiles. A number of different photospheric lines were also investigated by means of equivalent widths, and radial velocity measures, which were then related to physical processes directly observed in high-resolution observations made with the Swedish 1-m Solar Telescope (SST) and the Atmospheric Imaging Assembly (AIA) on board of the Solar Dynamics Observatory (SDO). Results. Our findings suggest a relationship between the evolving shapes of contrast profile time and the flare locations, which assists in constraining flare locations in disk-integrated observations. In addition, an upward bias was found in flare statistics based on activity indices derived from the Ca II H & K lines. In this case, much smaller flares cause a similar increase in the activity index as that produced by larger flares. Hα-based activity indices do not show this bias and are therefore less susceptible to activity jitter. Sodium line profiles show a strongly asymmetric response during flare activity, which is best captured with a newly defined asymmetrical sodium activity index. A strong flare response was detected in Mn I line profiles, which is unexpected and calls for further exploration. Intensity increases in Hα, Hβ, and certain spectral windows of AIA before the flare onset suggest their potential use as short-term flare predictors. [ABSTRACT FROM AUTHOR]

Published

2024

33. A huge-amplitude white-light superflare on a L0 brown dwarf discovered by GWAC survey.

Author

Xin, Li-Ping, Li, Hua-li, Wang, Jing, Han, Xu-Hui, Cai, Hong-Bo, Huang, Xin-Bo, Cao, Jia-Xin, Zhu, Yi-Nan, Wang, Xiang-Gao, Li, Guang-Wei, Ren, Bin, Gao, Cheng, Song, Da, Huang, Lei, Lu, Xiao-Meng, Bai, Jian-Ying, Qiu, Yu-Lei, Liang, En-Wei, Dai, Zi-Gao, and Wang, Xiang-Yu

Subjects

*BROWN dwarf stars, *EXPONENTIAL sums, *GAMMA ray bursts, *MAGNETIC reconnection, *SOLAR flares, *LIGHT curves

Abstract

White-light superflares from ultra-cool stars are thought to be resulted from magnetic reconnection, but the magnetic dynamics in a fully convective star is not clear yet. In this paper, we report a stellar superflare detected with the ground wide angle camera (GWAC), along with rapid follow-ups with the F60A, Xinglong 2.16-m, and LCOGT telescopes. The effective temperature of the counterpart is estimated to be 2200 ± 50 K by the BT-Settl model, corresponding to a spectral type of L0. The R -band light curve can be modelled as a sum of three exponential decay components, where the impulsive component contributes a fraction of 23 per cent of the total energy, while the gradual and the shallower decay phases emit 42 per cent and 35 per cent of the total energy, respectively. The strong and variable Balmer narrow emission lines indicate the large amplitude flare is resulted from magnetic activity. The bolometric energy released is about 6.4 × 1033 erg, equivalent to an energy release in a duration of 143.7 h at its quiescent level. The amplitude of Δ R  = −8.6 mag (or Δ V  = −11.2 mag), placing it one of the highest amplitudes of any ultra-cool star recorded with excellent temporal resolution. We argue that a stellar flare with such rapidly decaying and huge amplitude at distances greater than 1 kpc may be false positive in searching for counterparts of catastrophic events such as gravitational wave events or gamma-ray bursts, which are valuable in time-domain astronomy and should be given more attention. [ABSTRACT FROM AUTHOR]

Published

2024

34. Planetary perturbers: flaring star–planet interactions in Kepler and TESS.

Author

Ilin, Ekaterina, Poppenhäger, Katja, Chebly, Judy, Ilić, Nikoleta, and Alvarado-Gómez, Julián D

Subjects

*STELLAR magnetic fields, *PLANETARY systems, *HOT Jupiters, *PLANETARY orbits

Abstract

In many star–planet systems discovered so far, the innermost planet orbits within only a few stellar radii. In these systems, planets could become in situ probes of the extended stellar magnetic field. Because they disturb the field as they move, they are expected to trigger flares in the corona. Potential differences to the energies and morphologies of intrinsic flares are poorly constrained. However, as we expect planet-induced flares to correlate with the planet's orbital period, we can identify them from a clustering of flares in phase with the planet's orbit. We used the excellent phase coverage from Kepler and the Transiting Exoplanet Survey Satellite to find flaring star–planet systems, compile a catalogue of all their flares, and measure how much they cluster in orbital phase. In the 1811 searched systems, we found 25 single stars with three or more flares each. We quantified the significance of the clustering in each system, and compared it against the theoretically expected power of magnetic interaction that leads to planet-induced flaring. Most systems do not show any clustering, consistent with low expected power. Those we expect to show clustering fall on two branches. An inactive one, without any signs of clustering, and a tentative active one, where the clustering becomes more pronounced as the expected power of interaction increases. The flares in HIP 67522 are prominently clustered (p < 0.006). This young hot Jupiter system is the most promising candidate for magnetic star–planet interaction in our sample. [ABSTRACT FROM AUTHOR]

Published

2024

35. Study of the energetic X-ray superflares from the active fast rotator AB doradus.

Author

Didel, Shweta, Pandey, Jeewan C, Srivastava, A K, and Singh, Gurpreet

Subjects

*SOLAR flares, *GAMMA ray bursts, *X-ray spectra, *LIGHT curves, *STELLAR magnetic fields, *PLASMA confinement, *X-rays, *SUPERCONDUCTING quantum interference devices

Abstract

We present the analyses of intense X-ray flares detected on the active fast rotator AB Dor using observations from the XMM–Newton. A total of 21 flares are detected, and 13 flares are analysed in detail. The total X-ray energy of these flares is found to be in the range of 1034−36 erg, in which the peak flare flux increased up to 34 times from the pre-/post-flaring states for the strongest observed flare. The duration of these flaring events is found to be 0.7 to 5.8 h. The quiescent state X-ray spectra are found to be explained by a three-temperature plasma with average temperatures of 0.29, 0.95, and 1.9 keV, respectively. The temperatures, emission measures, and abundances are found to be varying during the flares. The peak flare temperature was found in the 31–89 MK range, whereas the peak emission measure was 1052.5–54.7 cm−3 . The abundances vary during the flares and increase by a factor of ∼3 from the quiescent value for the strongest detected flare. The variation in individual abundances follows the inverse-FIP effect in quiescent and flare phases. The X-ray light curves of AB Dor are found to exhibit rotational modulation. The semi-loop lengths of the flaring events are derived in the range of 109.9−10.7  cm, whereas the minimum magnetic field to confine the plasma in the flaring loop is estimated between 200 and 700 G. [ABSTRACT FROM AUTHOR]

Published

2024

36. Commensal transient searches in eight short gamma-ray burst fields.

Author

Chastain, S I, van der Horst, A J, Rowlinson, A, Rhodes, L, Andersson, A, Diretse, R, Fender, R P, and Woudt, P A

Subjects

*ACTIVE galactic nuclei, *RADIO sources (Astronomy), *RADIO telescopes, *GAMMA ray bursts

Abstract

A new generation of radio telescopes with excellent sensitivity, instantaneous uv coverage, and large fields of view, are providing unprecedented opportunities for performing commensal transient searches. Here, we present such a commensal search in deep observations of short gamma-ray burst fields carried out with the MeerKAT radio telescope in South Africa at 1.3 GHz. These four hour observations of eight different fields span survey lengths of weeks to months. We also carry out transient searches in time slices of the full observations, at time-scales of 15 min and 8 s. We find 122 variable sources on the long time-scales, of which 52 are likely active galactic nuclei, but there are likely also some radio flaring stars. While the variability is intrinsic in at least two cases, most of it is consistent with interstellar scintillation. In this study, we also place constraints on transient rates based on state-of-the-art transient simulations codes. We place an upper limit of 2 × 10−4 transients per day per square degree for transients with peak flux of 5 mJy, and an upper limit of 2.5 × 10−2 transients per day per square degree for transients with a fluence of 10 Jy ms, the minimum detectable fluence of our survey. [ABSTRACT FROM AUTHOR]

Published

2023

37. Simulated Radio and Neutrino Imaging of a Microquasar.

Author

Smponias, Theodoros

Subjects

SYNCHROTRON radiation, ELECTROMAGNETIC radiation, DETECTORS, STARS, NEUTRINOS

Abstract

Microquasar stellar systems emit electromagnetic radiation and high-energy particles. Thanks to their location within our own galaxy, they can be observed in high detail. Still, many of their inner workings remain elusive; hence, simulations, as the link between observations and theory, are highly useful. In this paper, both high-energy particle and synchrotron radio emissions from simulated microquasar jets are calculated using special relativistic imaging. A finite ray speed imaging algorithm is employed on hydrodynamic simulation data, producing synthetic images seen from a stationary observer. A hydrodynamical model is integrated in the above emission models. Synthetic spectra and maps are then produced that can be compared to observations from detector arrays. As an application, the model synthetically observes microquasars during an episodic ejection at two different spatio-temporal scales: one on the neutrino emission region scale and the other on the synchrotron radio emission scale. The results are compared to the sensitivity of existing detectors. [ABSTRACT FROM AUTHOR]

Published

2023

38. γ-ray detection from occasional flares in T Tauri stars of NGC 2071 – I. Observational connection.

Author

Filócomo, A, Albacete-Colombo, J F, Mestre, E, Pellizza, L J, and Combi, J A

Subjects

*SPACE telescopes, *BL Lacertae objects, *TELESCOPES

Abstract

NGC 2071 is a star-forming region that overlaps with three γ-ray sources detected by the Fermi Space Telescope. We propose that strong flare activity in T Tauri stars could produce γ-ray emission in a way that makes them a counterpart to some unidentified sources detected by the Large Area Telescope aboard the Fermi satellite. We have performed a spectral and temporal analysis for two Fermi data sets: the first 2 yr and the entire 14 yr of observations. We have found that the γ-ray source is detectable at 3.2σ above the background at energies above 100 GeV during the first 2 yr of observation. The analysis of the expected frequency of the highest energy flares occurring in T Tauri stars is consistent with our estimate. In addition, we have determined the minimum energy of the flare that would produce γ-ray emission, which is ∼5 × 1037 erg. This agreement becomes a hard observational constraint supporting previous hypotheses about rare flares as the origin of unidentified γ-ray sources in star-forming regions. [ABSTRACT FROM AUTHOR]

Published

2023

39. Big flares from small stars: detecting flares from faint low-mass stars with NGTS full-frame images.

Author

Jackman, James A G, Wheatley, Peter J, West, Richard G, Gill, Sam, and Jenkins, James S

Subjects

*LOW mass stars, *SYNCOPE, *SOLAR flares, *DWARF stars

Abstract

High-cadence observations of high-energy stellar flares from cool and ultracool dwarfs are often limited by the faint nature of their host stars. Many low-mass sources cannot be detected in quiescence by photometric surveys, meaning they are not targeted for high-cadence observations. This reduces the chances of detecting the rarest high-energy flare events. We used the 13-s cadence full-frame images of Next-Generation Transit Survey (NGTS) to search for flares from M and L dwarfs. This included stars that were too faint to detect in quiescence. We detect 160 flares from 135 stars, with spectral types ranging from M3 to L2.5. We use our sample to study the energies, amplitudes and durations of flares from M and L dwarfs. We measure bolometric flare energies up to 4.5 × 1034 erg for ultracool dwarfs, but conclude that we have not reached a maximum limit to the energy released during white-light flares. We use our results to study the incidence rate of flares of mid- and late-M stars, not accounting for age or binarity, and find that 1.4 ± 0.4 and |$9^{+16}_{-3}$|  per cent of mid- and late-M stars, respectively, exhibit flares with amplitudes above 1 mag in the NGTS bandpass. Future studies with greater numbers of NGTS fields will expand upon this work. [ABSTRACT FROM AUTHOR]

Published

2023

40. Exploring the short-term variability of H α and H β emissions in a sample of M dwarfs.

Author

Kumar, Vipin, Rajpurohit, A S, Srivastava, Mudit K, Fernández-Trincado, José G, and Queiroz, A B A

Subjects

*STELLAR rotation, *LIGHT curves, *STELLAR magnetic fields

Abstract

The time-scales of variability in active M dwarfs can be related to their various physical parameters. Thus, it is important to understand such variability to decipher the physics of these objects. In this study, we have performed the low resolution (∼5.7 Å) spectroscopic monitoring of 83 M dwarfs (M0–M6.5) to study the variability of H α/H β emissions; over the time-scales from ∼0.7 to 2.3 h with a cadence of ∼3–10 min. Data of a sample of another 43 late-type M dwarfs (M3.5–M8.5) from the literature are also included to explore the entire spectral sequence. 53 of the objects in our sample (∼64 per cent) show statistically significant short-term variability in H α. We show that this variability in 38 of them are most likely to be related to the flaring events. We find that the early M dwarfs are less variable despite showing higher activity strengths (LH α/Lbol and LH β/Lbol), which saturates around ∼10−3.8 for M0–M4 types. Using archival photometric light curves from TESS and Kepler/K2 missions, the derived chromospheric emission (H α and H β emission) variability is then explored for any plausible systematics with respect to their rotation phase. The variability indicators clearly show higher variability in late-type M dwarfs (M5–M8.5) with shorter rotation periods (<2 d). For 44 sources, their age has been estimated using StarHorse project and possible correlations with variability have been explored. The possible causes and implications for these behaviours are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

41. Further evidence of the link between activity and metallicity using the flaring properties of stars in the Kepler field.

Author

See, Victor, Roquette, Julia, Amard, Louis, and Matt, Sean

Subjects

*STELLAR rotation, *LOW mass stars, *STELLAR mass, *PHYSICAL mobility, *MAGNETIC fields, *STELLAR activity

Abstract

The magnetic activity level of low-mass stars is known to vary as a function of the physical properties of the star. Many studies have shown that the stellar mass and rotation are both important parameters that determine magnetic activity levels. In contrast, the impact of a star's chemical composition on magnetic activity has received comparatively little attention. Data sets for traditional activity proxies, e.g. X-ray emission or calcium emission, are not large enough to search for metallicity trends in a statistically meaningful way. Recently, studies have used the photometric variability amplitude as a proxy for magnetic activity to investigate the role of metallicity because it can be relatively easily measured for large samples of stars. These studies find that magnetic activity and metallicity are positively correlated. In this work, we investigate the link between activity and metallicity further by studying the flaring properties of stars in the Kepler field. Similar to the photometric variability, we find that flaring activity is stronger in more metal-rich stars for a fixed mass and rotation period. This result adds to a growing body of evidence that magnetic field generation is correlated with metallicity. [ABSTRACT FROM AUTHOR]

Published

2023

42. A study of flare emission in DV Psc using TESS data.

Author

Lahiri, Deblina, Rani, G. Mamatha, and Sriram, K.

Subjects

*STELLAR magnetic fields, *STARSPOTS, *SOLAR flares, *COOL stars (Astronomy)

Abstract

We report the detection of two superflares along with other eight relatively moderate flares in a close binary RS CVn-type system DV Psc using TESS data. The flare energies were found to be in the range of 0.24–23.97 × 1034 erg with a duration of a few minutes to an hour. Most of the flares were not during primary and secondary minima phases. The two superflares occurred at a phase of 0.1 and 0.55 and the stellar spot with a magnetic field B = 500-2000 G can explain the energetics. Since the period of the binary is increasing, we estimated the energy due to mass transfer and noted that accretion energy may provide energy for the flares. Based on the sample of flaring late-type star data, we noted that flares in DV Psc possibly may arrive from either of the stellar components as the correlation between Log E vs Log R does agree well with theoretical relation (E∝ R3). Based on the values of the rotation period for both stellar components, we conclude that DV Psc displays low flaring frequency for a fast rotator. The loop lengths were estimated to be around 3.65–4.55 × 1010 cm for superflare events which were ∼ three times less than the separation (1.40 × 1011 cm) between the stellar component but if both loops occur at a similar time, the loops may interact and can trigger the observed superflares. We conclude that a large stellar spot or interconnecting magnetic field of lines among binary companions may trigger the superflares. [ABSTRACT FROM AUTHOR]

Published

2023

43. Prominence detection and chromosphere feature on the prototype RS CVn of active binary systems.

Author

Cao, Dongtao, Gu, Shenghong, Wolter, U, Mittag, M, Schmitt, J H M M, Gao, Dongyang, and Hu, Shaoming

Subjects

*SOLAR chromosphere, *STELLAR chromospheres, *DISPLAY systems, *SOLAR flares, *PROTOTYPES, *STELLAR atmospheres, *CIRCUMSTELLAR matter

Abstract

We present a study of high-resolution spectra of RS Canum Venaticorum (RS CVn), a prototype of active binary systems. Our data were obtained from 1998 to 2017 using different telescopes. We analyse the chromospheric activity indicators |$\rm{Ca~{\small II}}$| IRT, Hα, |$\rm{Na~{\small I}}$| D1, D2 doublet, |$\rm{He~{\small I}}$| D3, and Hβ using a spectral subtraction technique. The chromospheric emission stems mainly from the K2 IV primary star, while the F5 V secondary star only shows weak emission features in a few of our spectra. We find excess absorption features in the subtracted Hα lines and other activity indicators from spectra taken near primary eclipse, which we ascribe to prominence-like material associated with the primary star. We estimate size limits of these tentative prominences based on the geometry of the binary system, and investigate the physical properties of the strongest prominence. An optical flare, characterized by |$\rm{He~{\small I}}$| D3 line emission, together with stronger emission in other activity lines, was detected. The flare energy is roughly comparable to strong flares observed on other RS CVn-type stars. The chromospherically active longitudes of RS CVn most frequently appear near the two quadratures of the system and display changes between observing runs, which indicates an ongoing evolution of its active regions. [ABSTRACT FROM AUTHOR]

Published

2023

44. Flaring latitudes in ensembles of low-mass stars.

Author

Ilin, Ekaterina, Angus, Ruth, Luger, Rodrigo, Morris, Brett M, and Jehn, Florian U

Subjects

*LOW mass stars, *STELLAR magnetic fields, *STELLAR photospheres, *LATITUDE, *LIGHT curves, *SPACE environment

Abstract

The distribution of small-scale magnetic fields in stellar photospheres is an important ingredient in our understanding of the magnetism of low-mass stars. Their spatial distribution connects the field generated in the stellar interior with the outer corona and the large scale field, and thereby affects the space weather of planets. Unfortunately, we lack techniques that can locate them on most low-mass stars. One strategy is to localize field concentrations using the flares that occur in their vicinity. We explore a new method that adapts the spot simulation software fleck to study the modulation of flaring times as a function of active latitude. We use empirical relations to construct flare light curves similar to those available from Kepler and the Transiting Exoplanet Survey Satellite (TESS), search them for flares, and use the waiting times between flares to determine the location of active latitudes. We find that the mean and standard deviations of the waiting time distribution provide a unique diagnostic of flaring latitudes as a function of the number of active regions. Latitudes are best recovered when stars have three or less active regions that flare repeatedly, and active latitude widths below 20 deg; when either increases, the information about the active latitude location is gradually lost. We demonstrate our technique on a sample of flaring G dwarfs observed with the Kepler satellite, and furthermore suggest that combining ensemble methods for spots and flares could overcome the limitations of each individual technique for the localization of surface magnetic fields. [ABSTRACT FROM AUTHOR]

Published

2023

45. Minute-cadence observations of the LAMOST fields with the TMTS – III. Statistical study of the flare stars from the first two years.

Author

Liu, Qichun, Lin, Jie, Wang, Xiaofeng, Gu, Shenghong, Shi, Jianrong, Zhang, Liyun, Xi, Gaobo, Mo, Jun, Cai, Yongzhi, Chen, Liyang, Chen, Zhihao, Guo, Fangzhou, Jiang, Xiaojun, Li, Gaici, Li, Wenxiong, Lin, Han, Lin, Weili, Liu, Jialian, Miao, Cheng, and Ma, Xiaoran

Subjects

*ECLIPSING binaries, *COOL stars (Astronomy), *CONSTRAINTS (Physics), *STELLAR magnetic fields, *EARLY stars, *STELLAR chromospheres

Abstract

Tsinghua University-Ma Huateng Telescopes for Survey (TMTS) aims to detect fast-evolving transients in the Universe, which has led to the discovery of thousands of short-period variables and eclipsing binaries since 2020. In this paper, we present the observed properties of 125 flare stars identified by TMTS within the first two years, with an attempt to constrain their eruption physics. As expected, most of these flares were recorded in late-type red stars with G BP − G RP >2.0 mag; however, the flares associated with bluer stars tend to be on average more energetic and have broader profiles. The peak flux (F peak) of the flare is found to depend strongly on the equivalent duration (ED) of the energy release, i.e. F peak∝ED0.72 ± 0.04, which is consistent with results derived from the Kepler and Evryscope samples. This relation is likely to be related to the magnetic loop emission, while, for the more popular non-thermal electron heating model, a specific time evolution may be required to generate this relation. We notice that flares produced by hotter stars have a flatter F peak - ED relation compared to that from cooler stars. This is related to the statistical discrepancy in light-curve shape of flare events with different colours. In spectra from LAMOST, we find that flare stars have apparently stronger H α emission than inactive stars, especially at the low-temperature end, suggesting that chromospheric activity plays an important role in producing flares. On the other hand, the subclass with frequent flares is found to show H α emission of similar strength in its spectra to that recorded with only a single flare but similar effective temperature, implying that chromospheric activity may not be the only trigger for eruptions. [ABSTRACT FROM AUTHOR]

Published

2023

46. High-energy gamma-ray emission powered by a young protostar: the case of S255 NIRS 3.

Author

de Oña Wilhelmi, Emma, López-Coto, Rubén, and Su, Yang

Subjects

*NEAR infrared spectroscopy, *PROTON-proton interactions, *COSMIC rays, *LIGHT curves, *GAMMA ray bursts, *HADRONIC atoms, *PROTOSTARS

Abstract

Evidence of efficient acceleration of cosmic rays in massive young stellar objects has been recently reported. Among these massive protostars, S255 NIRS 3, for which extreme flaring events associated with radio jets have been detected, is one of the best objects to test this hypothesis. We search for gamma-ray emission associated with this object in Fermi -LAT data and inspect the gas content in different molecular lines using the MWISP survey. A GeV source dubbed 4FGL J0613.1+1749c lies on top of the MYSO region, where two filamentary ∼10 pc CO structures extend along the same direction of the subparsec radio jets. We investigate the spectrum, morphology, and light curve of the gamma-ray source and compare it with the theoretical emission expected from hadronic and leptonic populations accelerated in the radio jets. We argue that the gamma-ray source could be powered by particles accelerated in the S255 NIRS 3 jets, radiating via bremsstrahlung or proton–proton interaction, and with a synchrotron component shinning in radio from primary or secondary electrons in the case of a leptonic or hadronic population. [ABSTRACT FROM AUTHOR]

Published

2023

47. The impact of time-dependent stellar activity on exoplanet atmospheres.

Author

Louca, Amy J, Miguel, Yamila, Tsai, Shang-Min, Froning, Cynthia S, Loyd, R O Parke, and France, Kevin

Subjects

*STELLAR activity, *STELLAR spectra, *CHEMICAL kinetics, *STELLAR atmospheres, *RADIATIVE transfer, *NATURAL satellite atmospheres

Abstract

M-dwarfs are thought to be hostile environments for exoplanets. Stellar events are very common on such stars. These events might cause the atmospheres of exoplanets to change significantly over time. It is not only the major stellar flare events that contribute to this disequilibrium, but the smaller flares might also affect the atmospheres in an accumulating manner. In this study, we aim to investigate the effects of time-dependent stellar activity on the atmospheres of known exoplanets. We simulate the chemistry of GJ 876c, GJ 581c, and GJ 832c that go from H2-dominated to N2-dominated atmospheres using observed stellar spectra from the MUSCLES collaboration. We make use of the chemical kinetics code vulcan and implement a flaring routine that stochastically generates synthetic flares based on observed flare statistics. Using the radiative transfer code petitradtrans , we also simulate the evolution of emission and transmission spectra. We investigate the effect of recurring flares for a total of 11 d covering 515 flares. Results show a significant change in abundance for some relevant species such as H, OH, and CH4, with factors going up to three orders of magnitude difference with respect to the pre-flare abundances. We find a maximum change of ∼12 ppm for CH4 in transmission spectra on GJ 876c. These changes in the spectra remain too small to observe. We also find that the change in abundance and spectra of the planets accumulates throughout time, causing permanent changes in the chemistry. We conclude that this small but gradual change in chemistry arises due to the recurring flares. [ABSTRACT FROM AUTHOR]

Published

2023

48. Flare activity behaviour of low mass eclipsing binary KOI-7234.

Author

Dal, H. A. and Yoldaş, E.

Subjects

*LIGHT curves, *BINARY stars

Abstract

In this study, we present the results obtained from the analysis of KOI-7234's photometric data obtained by the Kepler satellite. For the first time in the literature, the light curve analysis of the system was carried out and it seems that the system was composed of two low mass components with the masses of 0.574 M ⊙ and 0.442 M ⊙ in radii of 0.598 R ⊙ and 0.529 R ⊙ with the semi-major axis of 17.390 R ⊙ . In total, 195 flares have been detected from the short cadence data. Over these parameters, two different OPEA models were obtained for the system, and P l a t e a u values were calculated as 1.578 ± 0.117 s for the first model and 1.735 ± 0.099 s for the second, while the half-time values were calculated as 1826.87 s and 1138.10 s. The general flare frequency of the system was calculated as 0.02345 h − 1 . [ABSTRACT FROM AUTHOR]

Published

2023

49. Understanding the flare emission in CF Tucanae using TESS.

Author

Sriram, Kandulapati, Vijaya, Annemalla, Lahiri, Deblina, and Choi, Chul Sung

Subjects

*SPIN exchange, *ANGULAR momentum (Mechanics), *ECLIPSING binaries, *PARABOLA, *FRACTIONS, *COOL stars (Astronomy)

Abstract

Chromospherically active binaries are important in the understanding of the origins of optical flares. Since studies of flares in binaries are important, we perform a detailed analysis of 11 flares emitted by the RS CVn binary source CF Tucanae using the Transiting Exoplanet Survey Satellite (TESS). We assume a 10000 K blackbody spectrum to determine the flare energies, which were noted to be ∼0.29–2.86 × 1035 erg. We also fitted optical flares with a fast rise with an exponential decay burst profile and decay times were used to estimate the flare scale lengths. Three flares among them mandate a double burst model and another two exhibit complex flare features. Spot areas were found to be ∼1022 cm2 and associated magnetic energies were found to be ∼1036–37 erg. This excess of magnetic energy indicates that the flares release only a small fraction of the magnetic energy of the dominant spot but may indicate a lack of connection between the flares and the dominant spot. We also study the periodic variations using the times of minima obtained from TESS data along with previous values. The optical periodic variation requires a parabola and a sinusoidal function to get the best fit. A new periodic modulation of P mod ∼ 28.64 ± 1.82 yr was observed and we attempt to explain this using a magnetic activity cycle. We conclude that CF Tuc exhibits complex flares and its periodic modulation varies, probably due to the exchange of spin and orbital angular momentum in the binary. [ABSTRACT FROM AUTHOR]

Published

2023

50. Glancing through the debris disk: Photometric analysis of DE Boo with CHEOPS.

Author

Boldog, Á., Szabó, Gy. M., Kriskovics, L., Brandeker, A., Kiefer, F., Bekkelien, A., Guterman, P., Olofsson, G., Simon, A. E., Gandolfi, D., Serrano, L. M., Wilson, T. G., Sousa, S. G., Lecavelier des Etangs, A., Alibert, Y., Alonso, R., Anglada, G., Bandy, T., Bárczy, T., and Barrado, D.

Subjects

*SOLAR system, *LIGHT curves, *STARSPOTS, *KUIPER belt, *PLANETESIMALS, *CIRCUMSTELLAR matter, *SPECTROGRAPHS

Abstract

Aims. DE Boo is a unique system, with an edge-on view through the debris disk around the star. The disk, which is analogous to the Kuiper belt in the Solar System, was reported to extend from 74 to 84 AU from the central star. The high photometric precision of the Characterising Exoplanet Satellite (CHEOPS) provided an exceptional opportunity to observe small variations in the light curve due to transiting material in the disk. This is a unique chance to investigate processes in the debris disk. Methods. Photometric observations of DE Boo of a total of four days were carried out with CHEOPS. Photometric variations due to spots on the stellar surface were subtracted from the light curves by applying a two-spot model and a fourth-order polynomial. The photometric observations were accompanied by spectroscopic measurements with the 1m RCC telescope at Piszkésteto and with the SOPHIE spectrograph in order to refine the astrophysical parameters of DE Boo. Results. We present a detailed analysis of the photometric observation of DE Boo. We report the presence of nonperiodic transient features in the residual light curves with a transit duration of 0.3–0.8 days. We calculated the maximum distance of the material responsible for these variations to be 2.47 AU from the central star, much closer than most of the mass of the debris disk. Furthermore, we report the first observation of flaring events in this system. Conclusions. We interpreted the transient features as the result of scattering in an inner debris disk around DE Boo. The processes responsible for these variations were investigated in the context of interactions between planetesimals in the system. [ABSTRACT FROM AUTHOR]

Published

2023