Your search keyword '"KÓSPÁL, ÁGNES"' showing total 33 results

1. A likely flyby of binary protostar Z CMa caught in action

Author

Dong, Ruobing, Liu, Hauyu Baobab, Cuello, Nicolás, Pinte, Christophe, Ábrahám, Péter, Vorobyov, Eduard, Hashimoto, Jun, Kóspál, Ágnes, Chiang, Eugene, Takami, Michihiro, Chen, Lei, Dunham, Michael, Fukagawa, Misato, Green, Joel, Hasegawa, Yasuhiro, Henning, Thomas, Pavlyuchenkov, Yaroslav, Pyo, Tae-Soo, and Tamura, Motohide

Published

2022

2. Evidence for non-zero turbulence in the protoplanetary disc around IM Lup.

Author

Flaherty, Kevin, Hughes, A Meredith, Simon, Jacob B, Reina, Alicia Smith, Qi, Chunhua, Bai, Xue-Ning, Andrews, Sean M, Wilner, David J, and Kóspál, Ágnes

Subjects

PROTOPLANETARY disks, MAGNETIC flux density, TURBULENCE, ROTATIONAL motion, ORIGIN of planets

Abstract

The amount of turbulence in protoplanetary discs around young stars is critical for determining the efficiency, timeline, and outcomes of planet formation. It is also difficult to measure. Observations are still limited, but direct measurements of the non-thermal, turbulent gas motion are possible with the Atacama Large Millimeter/submillimeter Array (ALMA). Using CO(2–1)/ |$^{13}$| CO(2–1)/C |$^{18}$| O(2–1) ALMA observations of the disc around IM Lup at |$\sim 0.4$|  arcsec (⁠|$\sim$| 60 au) resolution we find evidence of significant turbulence, at the level of |$\delta v_{\rm turb}=(0.18-0.30)$| c |$_\mathrm{ s}$|⁠. This result is robust against systematic uncertainties (e.g. amplitude flux calibration, mid-plane gas temperature, disc self-gravity). We find that gravito-turbulence as the source of the gas motion is unlikely based on the lack of an imprint on the rotation curve from a massive disc, while magneto-rotational instabilities and hydrodynamic instabilities are still possible, depending on the unknown magnetic field strength and the cooling time-scale in the outer disc. [ABSTRACT FROM AUTHOR]

Published

2024

3. The youngest of hot jupiters in action: episodic accretion outbursts in Gaia20eae.

Author

Nayakshin, Sergei, Cruz Sáenz de Miera, Fernando, and Kóspál, Ágnes

Subjects

HOT Jupiters, ORIGIN of planets, THERMAL instability, PROTOPLANETARY disks, STELLAR mass, JUPITER (Planet), STELLAR orbits

Abstract

Recent imaging observations with ALMA and other telescopes found widespread signatures of planet presence in protoplanetary discs at tens of au separations from their host stars. Here we point out that the presence of very massive planets at 0.1 au sized orbits can be deduced for protostars accreting gas at very high rates, when their discs display powerful Thermal Instability (TI) bursts. Earlier work showed that a massive planet modifies the nature of this instability, with outbursts triggered at the outer edge of the deep gap opened by the planet. We present simulations of this effect, finding two types of TI outbursts: downstream and upstream of the planet, which may or may not be causally connected. We apply our model to the outburst in Gaia20eae. We find that the agreement between the data and our disc TI model is improved if there is a planet of six Jupiter masses orbiting the star at 0.062 au separation. Gaia20eae thus becomes the second episodically erupting star, after FU Ori, where the presence of a massive planet is strongly suspected. Future observations of similar systems will constrain the mode and the frequency of planet formation in such an early epoch. [ABSTRACT FROM AUTHOR]

Published

2024

4. Episodic eruptions of young accreting stars: the key role of disc thermal instability due to Hydrogen ionization.

Author

Nayakshin, Sergei, Cruz Sáenz de Miera, Fernando, Kóspál, Ágnes, Ćalović, Aleksandra, Eislöffel, Jochen, and Lin, Douglas N C

Subjects

THERMAL instability, STARS, ACCRETION (Astrophysics), HYDROGEN, STAR formation, PROTOPLANETARY disks

Abstract

In the classical grouping of large magnitude episodic variability of young accreting stars, FU Ori type objects (FUORs) outshine their stars by a factor of ∼100, and can last for up to centuries; EX Lupi type ones (EXORs) are dimmer, and last months to a year. A disc Hydrogen ionization thermal instability (TI) scenario was previously proposed for FUORs but required unrealistically low disc viscosity. In the last decade, many intermediate-type objects, for example, FUOR-like in luminosity and spectra but EXOR-like in duration were found. Here, we show that the intermediate-type bursters Gaia20eae, PTF14jg, Gaia19bey, and Gaia21bty may be naturally explained by the TI scenario with realistic viscosity values. We argue that TI predicts a dearth (desert) of bursts with peak accretion rates between 10−6  |${\rm {\rm M}_{\odot }}$| yr−1 |$\lesssim \dot{M}_{\rm burst} \lesssim 10^{-5}$|   |${\rm {\rm M}_{\odot }}$| yr−1, and that this desert is seen in the sample of all the bursters with previously determined |$\dot{M}_{\rm burst}$|⁠. Most classic EXORs (FUORs) appear to be on the cold (hot) branch of the S -curve during the peak light of their eruptions; thus TI may play a role in this class differentiation. At the same time, TI is unable to explain how classic FUORs can last for up to centuries, and overpredicts the occurrence rate of short FUORs by at least an order of magnitude. We conclude that TI is a required ingredient of episodic accretion operating at R ≲ 0.1 au, but additional physics must play a role at larger scales. Knowledge of TI inner workings from related disciplines may enable its use as a tool to constrain the nature of this additional physics. [ABSTRACT FROM AUTHOR]

Published

2024

5. Accretion and magnetism on young eccentric binaries: DQ Tau and AK Sco.

Author

Pouilly, Kim, Hahlin, Axel, Kochukhov, Oleg, Morin, Julien, and Kóspál, Ágnes

Subjects

ACCRETION (Astrophysics), ECCENTRICS (Machinery), STELLAR evolution, LOW mass stars, MAGNETIC declination, GRAVITATIONAL effects, MAGNETISM, STELLAR magnetic fields

Abstract

The accretion and ejection of mass in pre-main-sequence (PMS) stars are key processes in stellar evolution as they shape the stellar angular momentum transport necessary for the stars' stability. Magnetospheric accretion on to classical T Tauri stars and low-mass PMS stars has been widely studied in the single-star case. This process cannot be directly transferred to PMS binary systems, as tidal and gravitation effects, and/or accretion from a circumbinary disc (with variable separation of the components in the case of eccentric orbits) are in place. This work examines the accretion process of two PMS eccentric binaries, DQ Tau and AK Sco, using high-resolution spectropolarimetric time series. We investigate how magnetospheric accretion can be applied to these systems by studying the accretion-related emission lines and the magnetic field of each system. We discover that both systems are showing signs of magnetospheric accretion, despite their slightly different configurations, and the weak magnetic field of AK Sco. Furthermore, the magnetic topology of DQ Tau A shows a change relative to the previous orbital cycle studied: previously dominated by the poloidal component, it is now dominated by the toroidal component. We also report an increase of the component's accretion and the absence of an accretion burst at the apastron, suggesting that the component's magnetic variation might be the cause of the inter-cycle variations of the system's accretion. We conclude on the presence of magnetospheric accretion for both systems, together with gravitational effects, especially for AK Sco, composed of more massive components. [ABSTRACT FROM AUTHOR]

Published

2024

6. Abundant sub-micron grains revealed in newly discovered extreme debris discs.

Author

Moór, Attila, Ábrahám, Péter, Su, Kate Y L, Henning, Thomas, Marino, Sebastian, Chen, Lei, Kóspál, Ágnes, Pawellek, Nicole, Varga, József, and Vida, Krisztián

Subjects

MAIN sequence (Astronomy), SPECTRAL energy distribution, ORIGIN of planets, CIRCUMSTELLAR matter, AGE distribution, DEAD trees

Abstract

Extreme debris discs (EDDs) are bright and warm circumstellar dusty structures around main sequence stars. They may represent the outcome of giant collisions occuring in the terrestrial region between large planetesimals or planetary bodies, and thus provide a rare opportunity to peer into the aftermaths of these events. Here, we report on results of a mini-survey we conducted with the aim to increase the number of known EDDs, investigate the presence of solid-state features around 10  μ m in eight EDDs, and classify them into the silica or silicate dominated groups. We identify four new EDDs and derive their fundamental properties. For these, and for four other previously known discs, we study the spectral energy distribution around 10  μ m by means of VLT/VISIR photometry in three narrow-band filters and conclude that all eight objects likely exhibit solid-state emission features from sub-micron grains. We find that four discs probably belong to the silicate dominated subgroup. Considering the age distribution of the entire EDD sample, we find that their incidence begins to decrease only after 300 Myr, suggesting that the earlier common picture that these objects are related to the formation of rocky planets may not be exclusive, and that other processes may be involved for older objects (≳100 Myr). Because most of the older EDD systems have wide, eccentric companions, we suggest that binarity may play a role in triggering late giant collisions. [ABSTRACT FROM AUTHOR]

Published

2024

7. Observational chemical signatures of the past FU Ori outbursts.

Author

Zwicky, Lis, Molyarova, Tamara, Akimkin, Vitaly, Smirnov-Pinchukov, Grigorii V, Semenov, Dmitry, Kóspál, Ágnes, and Ábrahám, Péter

Subjects

PROTOPLANETARY disks, CHEMICAL reactions, CHEMICAL structure, CIRCUMSTELLAR matter, ASTROCHEMISTRY, PLANETESIMALS, SOLAR radio bursts, THERMAL desorption

Abstract

FU Ori-type stars (FUors) are young stellar objects (YSOs) experiencing luminosity outbursts by a few orders of magnitude, which last for ∼102 yr. A dozen of FUors are known up to date, but many more currently quiescent YSOs could have experienced such outbursts in the last ∼103 yr. To find observational signatures of possible past outbursts, we utilize andes, radmc-3d code as well as casa ALMA simulator to model the impact of the outburst on the physical and chemical structure of typical FU Ori systems and how it translates to the molecular lines' fluxes. We identify several combinations of molecular lines that may trace past FU Ori objects both with and without envelopes. The most promising outburst tracers from an observational perspective are the molecular flux combinations of the N2H+ J  = 3–2, C18O J  = 2–1, H2CO |$(J_{\rm K_a, K_c}) = 4_{04}-3_{03}$|⁠ , and HCN J  = 3–2 lines. We analyse the processes leading to molecular flux changes and show that they are linked with either thermal desorption or enhanced chemical reactions in the molecular layer. Using observed CO, HCN, N2H+, and H2CO line fluxes from the literature, we identify ten nearby disc systems that might have undergone FU Ori outbursts in the past ∼103 yr: [MGM2012] 556, [MGM2012] 371, and [MGM2012] 907 YSOs in L1641, Class II protoplanetary discs around CI Tau, AS 209, and IM Lup and transitional discs DM Tau, GM Aur, LkCa 15, and J1640-2130. [ABSTRACT FROM AUTHOR]

Published

2024

8. The debris disc of HD 131488: bringing together thermal emission and scattered light.

Author

Pawellek, Nicole, Moór, Attila, Kirchschlager, Florian, Milli, Julien, Kóspál, Ágnes, Ábrahám, Péter, Marino, Sebastian, Wyatt, Mark, Rebollido, Isabel, Hughes, A Meredith, Cantalloube, Faustine, and Henning, Thomas

Subjects

LIGHT scattering, SPECTRAL energy distribution, MIE scattering, N-body simulations (Astronomy), SPECTRAL imaging

Abstract

We show the first SPHERE/IRDIS and IFS data of the CO-rich debris disc around HD 131488. We use N-body simulations to model both the scattered light images and the spectral energy distribution of the disc in a self-consistent way. We apply the Henyey–Greenstein approximation, Mie theory, and the Discrete Dipole Approximation to model the emission of individual dust grains. Our study shows that only when gas drag is taken into account can we find a model that is consistent with scattered light as well as thermal emission data of the disc. The models suggest a gas surface density of 2 × 10−5 M⊕ au−2 which is in agreement with estimates from ALMA observations. Thus, our modelling procedure allows us to roughly constrain the expected amount of gas in a debris disc without actual gas measurements. We also show that the shallow size distribution of the dust leads to a significant contribution of large particles to the overall amount of scattered light. The scattering phase function indicates a dust porosity of ∼0.2...0.6 which is in agreement with a pebble pile scenario for planetesimal growth. [ABSTRACT FROM AUTHOR]

Published

2024

9. Gaia21bty: An EXor light curve exhibiting a FUor spectrum.

Author

Siwak, Michał, Hillenbrand, Lynne A, Kóspál, Ágnes, Ábrahám, Péter, Giannini, Teresa, De, Kishalay, Moór, Attila, Szilágyi, Máté, Janík, Jan, Koen, Chris, Park, Sunkyung, Nagy, Zsófia, Cruz-Sáenz de Miera, Fernando, Fiorellino, Eleonora, Marton, Gábor, Kun, Mária, Lucas, Philip W, Udalski, Andrzej, and Szabó, Zsófia Marianna

Subjects

LIGHT curves, ACCRETION disks, OPTICAL spectra, SPECIAL effects in lighting, STAR formation

Abstract

Gaia21bty, a pre-main-sequence star that previously had shown aperiodic dips in its light curve, underwent a considerable Δ G ≈ 2.9 mag brightening that occurred over a few months between 2020 October and 2021 February. The Gaia light curve shows that the star remained near maximum brightness for about 4–6 months, and then started slowly fading over the next 2 yr, with at least three superimposed ∼1 mag sudden rebrightening events. Whereas the amplitude and duration of the maximum is typical for EX Lupi-type stars, optical and near-infrared spectra obtained at the maximum are dominated by features which are typical for FU Ori-type stars (FUors). Modelling of the accretion disc at the maximum indicates that the disc bolometric luminosity is 43 L⊙ and the mass accretion rate is 2.5 × 10−5 M⊙ yr−1, which are typical values for FUors even considering the large uncertainty in the distance (⁠|$1.7_{-0.4}^{+0.8}$| kpc). Further monitoring is necessary to understand the cause of the quick brightness decline, the rebrightening, and the other post-outburst light changes, as our multicolour photometric data suggest that they could be caused by a long and discontinuous obscuration event. We speculate that the outburst might have induced large-scale inhomogeneous dust condensations in the line of sight leading to such phenomena, whilst the FUor outburst continues behind the opaque screen. [ABSTRACT FROM AUTHOR]

Published

2023

10. The Gaia alerted fading of the FUor-type star Gaia21elv.

Author

Nagy, Zsófia, Park, Sunkyung, Ábrahám, Péter, Kóspál, Ágnes, Cruz-Sáenz de Miera, Fernando, Kun, Mária, Siwak, Michał, Szabó, Zsófia Marianna, Szilágyi, Máté, Fiorellino, Eleonora, Giannini, Teresa, Lee, Jae-Joon, Lee, Jeong-Eun, Marton, Gábor, Szabados, László, Vitali, Fabrizio, Andrzejewski, Jan, Gromadzki, Mariusz, Hodgkin, Simon, and Jabłońska, Maja

Subjects

OPTICAL spectra, SCIENCE journalism, ACCRETION disks, SPECTRAL energy distribution, VARIABLE stars, SPECTROMETRY

Abstract

FU Orionis objects (FUors) are eruptive young stars, which exhibit outbursts that last from decades to a century. Due to the duration of their outbursts, and to the fact that only about two dozens of such sources are known, information on the end of their outbursts is limited. Here we analyse follow-up photometry and spectroscopy of Gaia21elv, a young stellar object, which had a several decades long outburst. It was reported as a Gaia science alert due to its recent fading by more than a magnitude. To study the fading of the source and look for signatures characteristic of FUors, we have obtained follow-up near-infrared (NIR) spectra using Gemini South/IGRINS, and both optical and NIR spectra using VLT/X-SHOOTER. The spectra at both epochs show typical FUor signatures, such as a triangular shaped H -band continuum, absorption-line dominated spectrum, and P Cygni profiles. In addition to the typical FUor signatures, [O  i ], [Fe  ii ], and [S  ii ] were detected, suggesting the presence of a jet or disc wind. Fitting the spectral energy distributions with an accretion disc model suggests a decrease of the accretion rate between the brightest and faintest states. The rapid fading of the source in 2021 was most likely dominated by an increase of circumstellar extinction. The spectroscopy presented here confirms that Gaia21elv is a classical FUor, the third such object discovered among the Gaia science alerts. [ABSTRACT FROM AUTHOR]

Published

2023

11. JWST/MIRI Spectroscopy of the Disk of the Young Eruptive Star EX Lup in Quiescence.

Author

Kóspál, Ágnes, Ábrahám, Péter, Diehl, Lindsey, Banzatti, Andrea, Bouwman, Jeroen, Chen, Lei, Cruz-Sáenz de Miera, Fernando, Green, Joel D., Henning, Thomas, and Rab, Christian

Published

2023

12. Accretion process, magnetic fields, and apsidal motion in the pre-main sequence binary DQ Tau.

Author

Pouilly, Kim, Kochukhov, Oleg, Kóspál, Ágnes, Hahlin, Axel, Carmona, Andres, and Ábrahám, Péter

Subjects

STELLAR magnetic fields, MAGNETIC fields, BINARY sequences, MAGNETIC flux density, ACCRETION disks, DISPLAY systems

Abstract

Classical T Tauri stars (CTTSs) are young stellar objects that accrete materials from their accretion disc influenced by their strong magnetic field. The magnetic pressure truncates the disc at a few stellar radii and forces the material to leave the disc plane and fall onto the stellar surface by following the magnetic field lines. However, this global scheme may be disturbed by the presence of a companion interacting gravitationally with the accreting component. This work is aiming to study the accretion and the magnetic field of the tight eccentric binary DQ Tau, composed of two equal-mass (∼ 0.6 M⊙) CTTSs interacting at different orbital phases. We investigated the variability of the system using a high-resolution spectroscopic and spectropolarimetric monitoring performed with ESPaDOnS at the CFHT. We provide the first ever magnetic field analysis of this system, the Zeeman–Doppler imaging revealed a stronger magnetic field for the secondary than the primary (1.2 and 0.5 kG, respectively), but the small-scale fields analysed through Zeeman intensification yielded similar strengths (about 2.5 kG). The magnetic field topology and strengths are compatible with the accretion processes on CTTSs. Both components of this system are accreting, with a change of the main accretor during the orbital motion. In addition, the system displays a strong enhancement of the mass accretion rate at periastron and apastron. We also discovered, for the first time in this system, the apsidal motion of the orbital ellipse. [ABSTRACT FROM AUTHOR]

Published

2023

13. Mid-infrared time-domain study of recent dust production events in the extreme debris disc of TYC 4209-1322-1.

Author

Moór, Attila, Ábrahám, Péter, Kóspál, Ágnes, Su, Kate Y L, Rieke, George H, Vida, Krisztián, Cataldi, Gianni, Bódi, Attila, Bognár, Zsófia, Cseh, Borbála, Csörnyei, Géza, Egei, Nóra, Farkas, Anikó, Hanyecz, Ottó, Ignácz, Bernadett, Kalup, Csilla, Könyves-Tóth, Réka, Kriskovics, Levente, Mészáros, László, and Pál, András

Subjects

DUST, MINERAL dusts, LIGHT curves, SPACE telescopes, PROTON-proton interactions, CIRCUMSTELLAR matter

Abstract

Extreme debris discs are characterized by unusually strong mid-infrared excess emission, which often proves to be variable. The warm dust in these discs is of transient nature and is likely related to a recent giant collision occurring close to the star in the terrestrial region. Here we present the results of a 877 d long, gap-free photometric monitoring performed by the Spitzer Space Telescope of the recently discovered extreme debris disc around TYC 4209-1322-1. By combining these observations with other time-domain optical and mid-infrared data, we explore the disc variability of the last four decades with particular emphasis on the last 12 yr. During the latter interval the disc showed substantial changes, the most significant was the brightening and subsequent fading between 2014 and 2018 as outlined in WISE data. The Spitzer light curves outline the fading phase and a subsequent new brightening of the disc after 2018, revealing an additional flux modulation with a period of ∼39 d on top of the long-term trend. We found that all these variations can be interpreted as the outcome of a giant collision that happened at an orbital radius of ∼0.3 au sometime in 2014. Our analysis implies that a collision on a similar scale could have taken place around 2010, too. The fact that the disc was already peculiarly dust rich 40 yr ago, as implied by IRAS data, suggests that these dust production events belong to a chain of large impacts triggered by an earlier even more catastrophic collision. [ABSTRACT FROM AUTHOR]

Published

2022

14. Photometric and spectroscopic study of the burst-like brightening of two Gaia-alerted young stellar objects.

Author

Nagy, Zsófia, Ábrahám, Péter, Kóspál, Ágnes, Park, Sunkyung, Siwak, Michał, Cruz-Sáenz de Miera, Fernando, Fiorellino, Eleonora, García-Álvarez, David, Szabó, Zsófia Marianna, Antoniucci, Simone, Giannini, Teresa, Giunta, Alessio, Kriskovics, Levente, Kun, Mária, Marton, Gábor, Moór, Attila, Nisini, Brunella, Pál, Andras, Szabados, László, and Zieliński, Paweł

Subjects

LIGHT curves, PHOTOMETRY, VARIABLE stars, SYSTEMS theory, ABSORPTION

Abstract

Young stars show variability on different time-scales from hours to decades, with a range of amplitudes. We studied two young stars, which triggered the Gaia Science Alerts system due to brightenings on a time-scale of a year. Gaia20bwa brightened by about half a magnitude, whereas Gaia20fgx brightened by about two and half magnitudes. We analysed the Gaia light curves, additional photometry, and spectra taken with the Telescopio Nazionale Galileo and the Gran Telescopio Canarias. Several emission lines were detected towards Gaia20bwa, including hydrogen lines from H α to H δ, Pa β, Br γ, and lines of Ca  ii , O  i , and Na  i. The H α and Br γ lines were detected towards Gaia20fgx in emission in its bright state, with additional CO lines in absorption, and the Pa β line with an inverse P Cygni profile during its fading. Based on the Br γ lines, the accretion rate was |$(2.4\!-\!3.1)\times 10^{-8}\, {\rm M}_\odot$| yr−1 for Gaia20bwa and |$(4.5\!-\!6.6)\times 10^{-8}\, {\rm M}_\odot$| yr−1 for Gaia20fgx during their bright state. The accretion rate of Gaia20fgx dropped by almost a factor of 10 on a time-scale of half a year. The accretion parameters of both stars were found to be similar to those of classical T Tauri stars, lower than those of young eruptive stars. However, the amplitude and time-scale of these brightenings place these stars to a region of the parameter space, which is rarely populated by young stars. This suggests a new class of young stars, which produce outbursts on a time-scale similar to young eruptive stars, but with smaller amplitudes. [ABSTRACT FROM AUTHOR]

Published

2022

15. Lack of other molecules in CO-rich debris discs: is it primordial or secondary gas?

Author

Smirnov-Pinchukov, Grigorii V, Moór, Attila, Semenov, Dmitry A, Ábrahám, Péter, Henning, Thomas, Kóspál, Ágnes, Hughes, A Meredith, and di Folco, Emmanuel

Subjects

COSMIC abundances, PROTOPLANETARY disks, PLANETESIMALS, CIRCUMSTELLAR matter, RADIATIVE transfer, MOLECULES, ASTROCHEMISTRY, ISOTOPOLOGUES

Abstract

The nature of the gas in CO-rich debris discs remains poorly understood, as it could either be a remnant from the earlier Class II phase or of secondary origin, driven by the destruction of icy planetesimals. The aim of this paper was to elucidate the origin of the gas content in the debris discs via various simple molecules that are often detected in the less-evolved Class II discs. We present millimetre molecular line observations of nine circumstellar discs around A-type stars: four CO-rich debris discs (HD 21997, HD 121617, HD 131488, HD 131835) and five old Herbig Ae protoplanetary discs (HD 139614, HD 141569, HD 142666, HD 145718, HD 100453). The sources were observed with the Atacama Large Millimeter/submillimeter Array (ALMA) in Bands 5 and 6 with 1–2 arcsec resolution. The Herbig Ae discs are detected in the CO isotopologues, CN, HCN, HCO+, C2H, and CS lines. In contrast, only CO isotopologues are detected in the debris discs, showing a similar amount of CO to that found in the Herbig Ae protoplanetary discs. Using chemical and radiative transfer modelling, we show that the abundances of molecules other than CO in debris discs are expected to be very low. We consider multiple sets of initial elemental abundances with various degrees of H2 depletion. We find that the HCO+ lines should be the second brightest after the CO lines, and that their intensities strongly depend on the overall CO/H2 ratio of the gas. However, even in the ISM-like scenario, the simulated HCO+ emission remains weak as required by our non-detections. [ABSTRACT FROM AUTHOR]

Published

2022

16. LONG-TERM EVOLUTION OF FU ORI-TYPE STARS AT INFRARED WAVELENGTHS

Author

Kóspál, Ágnes, Ábrahám, Péter, Kun, Mária, Csizmadia, Szilárd, and Verdugo, Eva

Published

2004

17. Four new planetesimals around typical and pre-main-sequence  stars (PLATYPUS) debris discs at 8.8 mm.

Author

Norfolk, Brodie J, Maddison, Sarah T, Marshall, Jonathan P, Kennedy, Grant M, Duchêne, Gaspard, Wilner, David J, Pinte, Christophe, Moór, Attila, Matthews, Brenda, Ábrahám, Péter, Kóspál, Ágnes, and van der Marel, Nienke

Subjects

PLANETESIMALS, PARTICLE size distribution, PLATYPUS, MECHANICAL properties of condensed matter, GRAIN size

Abstract

Millimetre continuum observations of debris discs can provide insights into the physical and dynamical properties of the unseen planetesimals that these discs host. The material properties and collisional models of planetesimals leave their signature on the grain size distribution, which can be traced through the millimetre spectral index. We present 8.8 mm observations of the debris discs HD 48370, CPD-72 2713, HD 131488, and HD 32297 using the Australian Telescope Compact Array (ATCA) as part of the PLanetesimals Around TYpical Pre-main-seqUence Stars (PLATYPUS) survey. We detect all four targets with a characteristic beam size of 5 arcsec and derive a grain size distribution parameter that is consistent with collisional cascade models and theoretical predictions for parent planetesimal bodies where binding is dominated by self-gravity. We combine our sample with 19 other millimetre-wavelength-detected debris discs from the literature and calculate a weighted mean grain size power-law index that is close to analytical predictions for a classical steady-state collisional cascade model. We suggest the possibility of two distributions of q in our debris disc sample; a broad distribution (where q ∼ 3.2–3.7) for 'typical' debris discs (gas-poor/non-detection), and a narrow distribution (where q < 3.2) for bright gas-rich discs. Or alternatively, we suggest that there exists an observational bias between the grain size distribution parameter and absolute flux that may be attributed to the detection rates of faint debris discs at  |$\rm \sim$| cm wavelengths. [ABSTRACT FROM AUTHOR]

Published

2021

18. H2O masers and host environments of FU Orionis and EX Lupi type low-mass eruptive YSOs.

Author

Marianna Szabó, Zsófia, Gong, Yan, Yang, Wenjin, Menten, Karl M., Bayandina, Olga S., Cyganowski, Claudia J., Kóspál, Ágnes, Ábrahám, Péter, Belloche, Arnaud, and Wyrowski, Friedrich

Subjects

MASERS, LOW mass stars, CORONAL mass ejections

Abstract

The FU Orionis (FUor) and EX Lupi (EXor) type objects are rare pre-main sequence low-mass stars undergoing accretion outbursts. Maser emission is widespread and is a powerful probe of mass accretion and ejection on small scales in star forming region. However, very little is known about the overall prevalence of water masers towards FUors/Exors. We present results from our survey using the Effelsberg 100-m telescope to observe the largest sample of FUors and EXors, plus additional Gaia alerted sources (with the potential nature of being eruptive stars), a total of 51 targets, observing the 22.2 GHz H2O maser, while simultaneously covering the NH3 23 GHz. [ABSTRACT FROM AUTHOR]

Published

2022

19. Dipper-like variability of the Gaia alerted young star V555 Ori.

Author

Nagy, Zsófia, Szegedi-Elek, Elza, Ábrahám, Péter, Kóspál, Ágnes, Bódi, Attila, Bouvier, Jérôme, Kun, Mária, Moór, Attila, Cseh, Borbála, Farkas-Takács, Anikó, Hanyecz, Ottó, Hodgkin, Simon, Ignácz, Bernadett, Kiss, Csaba, Könyves-Tóth, Réka, Kriskovics, Levente, Marton, Gábor, Mészáros, László, Ordasi, András, and Pál, András

Subjects

LONG-Term Evolution (Telecommunications), LIGHT curves, SPECIAL effects in lighting, SCIENCE publishing, VARIABLE stars

Abstract

V555 Ori is a T Tauri star, whose 1.5 mag brightening was published as a Gaia science alert in 2017. We carried out optical and near-infrared (NIR) photometric, and optical spectroscopic observations to understand the light variations. The light curves show that V555 Ori was faint before 2017, entered a high state for about a year, and returned to the faint state by mid-2018. In addition to the long-term flux evolution, quasi-periodic brightness oscillations were also evident, with a period of about 5 d. At optical wavelengths both the long-term and short-term variations exhibited colourless changes, while in the NIR they were consistent with changing extinction. We explain the brightness variations as the consequence of changing extinction. The object has a low accretion rate whose variation in itself would not be enough to reproduce the optical flux changes. This behaviour makes V555 Ori similar to the pre-main sequence star AA Tau, where the light changes are interpreted as periodic eclipses of the star by a rotating inner disc warp. The brightness maximum of V555 Ori was a moderately obscured (AV  = 2.3 mag) state, while the extinction in the low state was AV  = 6.4 mag. We found that while the Gaia alert hinted at an accretion burst, V555 Ori is a standard dipper, similar to the prototype AA Tau. However, unlike in AA Tau, the periodic behaviour was also detectable in the faint phase, implying that the inner disc warp remained stable in both the high and low states of the system. [ABSTRACT FROM AUTHOR]

Published

2021

20. A New Sample of Warm Extreme Debris Disks from the ALLWISE Catalog.

Author

Moór, Attila, Ábrahám, Péter, Szabó, Gyula, Vida, Krisztián, Cataldi, Gianni, Derekas, Alíz, Henning, Thomas, Kinemuchi, Karen, Kóspál, Ágnes, Kovács, József, Pál, András, Sarkis, Paula, Seli, Bálint, Szabó, Zsófia M., and Takáts, Katalin

Subjects

MAIN sequence (Astronomy), PLANETESIMALS, STELLAR populations, ORIGIN of planets, AGE of stars, INNER planets, CATALOGS

Abstract

Extreme debris disks (EDDs) are rare systems with peculiarly large amounts of warm dust that may stem from recent giant impacts between planetary embryos during the final phases of terrestrial planet growth. Here we report on the identification and characterization of six new EDDs. These disks surround F5-G9 type main-sequence stars with ages >100 Myr, have dust temperatures higher than 300 K, and fractional luminosities between 0.01 and 0.07. Using time-domain photometric data at 3.4 and 4.6 μm from the WISE all-sky surveys, we conclude that four of these disks exhibited variable mid-infrared (IR) emission between 2010 and 2019. Analyzing the sample of all known EDDs, now expanded to 17 objects, we find that 14 of them showed changes at 3–5 μm over the past decade, suggesting that mid-IR variability is an inherent characteristic of EDDs. We also report that wide-orbit pairs are significantly more common in EDD systems than in the normal stellar population. While current models of rocky planet formation predict that the majority of giant collisions occur in the first 100 Myr, we find that the sample of EDDs is dominated by systems older than this age. This raises the possibility that the era of giant impacts may be longer than we think, or that some other mechanism(s) can also produce EDDs. We examine a scenario where the observed warm dust stems from the disruption and/or collisions of comets delivered from an outer reservoir into the inner regions, and explore what role the wide companions could play in this process. [ABSTRACT FROM AUTHOR]

Published

2021

21. Eruptive Behavior of Magnetically Layered Protoplanetary Disks in Low-metallicity Environments.

Author

Kadam, Kundan, Vorobyov, Eduard, and Kóspál, Ágnes

Subjects

LOW mass stars, COSMOLOGICAL distances, PROTOPLANETARY disks, LUMINOSITY

Abstract

A protoplanetary disk (PPD) typically forms a dead zone near its midplane at a distance of a few astronomical units from the central protostar. Accretion through such a magnetically layered disk can be intrinsically unstable and has been associated with episodic outbursts in young stellar objects. We present the first investigation into the effects of a low-metallicity environment on the structure of the dead zone, as well as the resulting outbursting behavior of the PPD. We conducted global numerical hydrodynamic simulations of PPD formation and evolution in the thin-disk limit. The consequences of metallicity were considered via its effects on the gas and dust opacity of the disk, the thickness of the magnetically active surface layer, and the temperature of the prestellar cloud core. We show that the metal-poor disks accumulate much more mass in the innermost regions as compared to the solar-metallicity counterparts. The duration of the outbursting phase also varies with metallicity; the low-metallicity disks showed more powerful luminosity eruptions with a shorter burst phase, which was confined mostly to the early, embedded stages of the disk evolution. The lowest-metallicity disks with the higher cloud core temperature showed the most significant differences. The occurrence of outbursts was relatively rare in the disks around low-mass stars, and this was especially true at the lowest metallicities. We conclude that the metal content of the disk environment can have profound effects on both the disk structure and evolution in terms of episodic accretion. [ABSTRACT FROM AUTHOR]

Published

2021

22. Physical Conditions of Gas Components in Debris Disks of 49 Ceti and HD 21997.

Author

Higuchi, Aya E., Kóspál, Ágnes, Moór, Attila, Nomura, Hideko, and Yamamoto, Satoshi

Subjects

*LOCAL thermodynamic equilibrium, *STELLAR radiation, *COLLISIONS (Nuclear physics), *SPECTRAL lines, *ULTRAVIOLET radiation

Abstract

Characterization of the gas component in debris disks is of fundamental importance for understanding their origin. To address this goal, we have conducted non-LTE (local thermodynamic equilibrium) analyses of the rotational spectral lines of CO including those of rare isotopologues (13CO and C18O) that have been observed toward the gaseous debris disks of 49 Ceti and HD 21997 with the Atacama Large Millimeter/submillimeter Array (ALMA) and the Atacama Compact Array (ACA). The analyses have been carried out for a wide range of H2 density, and the observed line intensities are found to be reproduced as long as the H2 density is higher than 103 cm−3. The CO column density and the gas temperature are evaluated to be (1.8–5.9) × 1017 cm−2 and 8–11 K for 49 Ceti and (2.6–15) × 1017 cm−2 and 8–12 K for HD 21997, respectively, where the H2 collision is assumed for the rotational excitation of CO. The results do not change significantly even if electron collision is considered. Thus, CO molecules can be excited under environments containing no H2 or a small number of H2 molecules, even where collisions with CO, C, O, and C+ would make an important contribution to the CO excitation in addition to H2. Meanwhile, our result does not rule out the case of abundant H2 molecules. The low gas temperature observed in the debris disks is discussed in terms of inefficient heating by interstellar and stellar UV radiation. [ABSTRACT FROM AUTHOR]

Published

2020

23. Measuring Turbulent Motion in Planet-forming Disks with ALMA: A Detection around DM Tau and Nondetections around MWC 480 and V4046 Sgr.

Author

Flaherty, Kevin, Hughes, A. Meredith, Simon, Jacob B., Qi, Chunhua, Bai, Xue-Ning, Bulatek, Alyssa, Andrews, Sean M., Wilner, David J., and Kóspál, Ágnes

Subjects

MOTION, ORIGIN of planets, PARAMETRIC modeling, TURBULENCE

Abstract

Turbulence is a crucial factor in many models of planet formation, but it has only been directly constrained among a small number of planet-forming disks. Building on the upper limits on turbulence placed in disks around HD 163296 and TW Hya, we present ALMA CO J = 2–1 line observations at ∼0.″3 (20–50 au) resolution and 80 ms−1 channel spacing of the disks around DM Tau, MWC 480, and V4046 Sgr. Using parametric models of disk structure, we robustly detect nonthermal gas motions around DM Tau of between 0.25cs and 0.33cs, with the range dominated by systematic effects, making this one of the only systems with directly measured nonzero turbulence. Using the same methodology, we place stringent upper limits on the nonthermal gas motion around MWC 480 (<0.08cs) and V4046 Sgr (<0.12cs). The preponderance of upper limits in this small sample and the modest turbulence levels consistent with dust studies suggest that weak turbulence (α ≲ 10−3) may be a common, albeit not universal, feature of planet-forming disks. We explore the particular physical conditions around DM Tau that could lead this system to be more turbulent than the others. [ABSTRACT FROM AUTHOR]

Published

2020

24. The Big Sibling of AU Mic: A Cold Dust-rich Debris Disk around CP−72 2713 in the β Pic Moving Group.

Author

Moór, Attila, Pawellek, Nicole, Ábrahám, Péter, Kóspál, Ágnes, Vida, Krisztián, Pál, András, Dutrey, Anne, Folco, Emmanuel Di, Hughes, A. Meredith, Kral, Quentin, and Pascucci, Ilaria

Published

2020

25. Outbursts in Global Protoplanetary Disk Simulations.

Author

Kadam, Kundan, Vorobyov, Eduard, Regály, Zsolt, Kóspál, Ágnes, and Ábrahám, Péter

Subjects

PROTOPLANETARY disks, STELLAR evolution, THERMAL instability, STELLAR mass, MAGNETIC structure, WATER vapor

Abstract

While accreting through a circumstellar disk, young stellar objects are observed to undergo sudden and powerful accretion events known as FUor or EXor outbursts. Although such episodic accretion is considered to be an integral part of the star formation process, the triggers and mechanisms behind them remain uncertain. We conducted global numerical hydrodynamics simulations of protoplanetary disk formation and evolution in the thin-disk limit, assuming both magnetically layered and fully magnetorotational instability (MRI)-active disk structure. In this paper, we characterize the nature of the outbursts occurring in these simulations. The instability in the dead zone of a typical layered disk results in "MRI outbursts." We explore their progression and their dependence on the layered disk parameters as well as cloud core mass. The simulations of fully MRI-active disks showed an instability analogous to the classical thermal instability. This instability manifested at two temperatures—above approximately 1400 K and 3500 K—due to the steep dependence of Rosseland opacity on the temperature. The origin of these thermally unstable regions is related to the bump in opacity resulting from molecular absorption by water vapor and may be viewed as a novel mechanism behind some of the shorter duration accretion events. Although we demonstrated local thermal instability in the disk, more investigations are needed to confirm that a large-scale global instability will ensue. We conclude that the magnetic structure of a disk, its composition, as well as the stellar mass, can significantly affect the nature of episodic accretion in young stellar objects. [ABSTRACT FROM AUTHOR]

Published

2020

26. A multiwavelength study of the debris disc around 49 Cet.

Author

Pawellek, Nicole, Moór, Attila, Milli, Julien, Kóspál, Ágnes, Olofsson, Johan, Ábrahám, Péter, Keppler, Miriam, Kral, Quentin, Pohl, Adriana, Augereau, Jean-Charles, Boccaletti, Anthony, Chauvin, Gaël, Choquet, Élodie, Engler, Natalia, Henning, Thomas, Langlois, Maud, Lee, Eve J, Ménard, François, Thébault, Philippe, and Zurlo, Alice

Subjects

SPECTRAL energy distribution, DUST explosions, VERY large telescopes, PARTICLE size distribution, PLANETESIMALS, RADIATION pressure, MAIN sequence (Astronomy), GRAIN size

Abstract

In a multiwavelength study of thermal emission and scattered light images we analyse the dust properties and structure of the debris disc around the A1-type main-sequence star 49 Cet. As a basis for this study, we present new scattered light images of the debris disc known to possess a high amount of both dust and gas. The outer region of the disc is revealed in former coronagraphic H -band and our new Y -band images from the Very Large Telescope SPHERE instrument. We use the knowledge of the disc's radial extent inferred from ALMA observations and the grain size distribution found by spectral energy distribution fitting to generate semidynamical dust models of the disc. We compare the models to scattered light and thermal emission data and find that a disc with a maximum surface density at 110 au and shallow edges can describe both the thermal emission and the scattered light observations. This suggests that grains close to the blow-out limit and large grains stem from the same planetesimal population and are mainly influenced by radiation pressure. The influence of inward transport processes could not be analysed in this study. [ABSTRACT FROM AUTHOR]

Published

2019

27. A concordant scenario to explain FU Orionis from deep centimeter and millimeter interferometric observations.

Author

Hauyu Baobab Liu, Vorobyov, Eduard I., Ruobing Dong, Dunham, Michael M., Michihiro Takami, Galván-Madrid, Roberto, Hashimoto, Jun, Kóspál, Ágnes, Henning, Thomas, Tamura, Motohide, Rodríguez, Luis F., Naomi Hirano, Yasuhiro Hasegawa, Misato Fukagawa, Carrasco-Gonzalez, Carlos, and Tazzari, Marco

Subjects

SPECTRAL energy distribution, GRAVITATIONAL interactions, GRAVITATIONAL instability, THERMAL instability, IONIZED gases, EXPECTED returns

Abstract

Aims: The aim of this work is to constrain properties of the disk around the archetype FU Orionis object, FU Ori, with as good as ~25 au resolution. Methods. We resolved FU Ori at 29-37 GHz using the Karl G. Jansky Very Large Array (JVLA) in the A-array configuration, which provided the highest possible angular resolution to date at this frequency band (~007). We also performed complementary JVLA 8-10 GHz observations, Submillimeter Array (SMA) 224 GHz and 272 GHz observations, and compared these with archival Atacama Large Millimeter Array (ALMA) 346 GHz observations to obtain the spectral energy distributions (SEDs). Results: Our 8-10 GHz observations do not find evidence for the presence of thermal radio jets, and constrain the radio jet/wind flux to at least 90 times lower than the expected value from the previously reported bolometric luminosity-radio luminosity correlation. The emission at frequencies higher than 29 GHz may be dominated by the two spatially unresolved sources, which are located immediately around FU Ori and its companion FU Ori S, respectively. Their deconvolved radii at 33 GHz are only a few au, which is two orders of magnitude smaller in linear scale than the gaseous disk revealed by the previous Subaru-HiCIAO 1.6 µm coronagraphic polarization imaging observations. We are struck by the fact that these two spatially compact sources contribute to over 50% of the observed fluxes at 224 GHz, 272 GHz, and 346 GHz. The 8-346 GHz SEDs of FU Ori and FU Ori S cannot be fit by constant spectral indices (over frequency), although we cannot rule out that it is due to the time variability of their (sub)millimeter fluxes. Conclusions: The more sophisticated models for SEDs considering the details of the observed spectral indices in the millimeter bands suggest that the >29 GHz emission is contributed by a combination of free-free emission from ionized gas and thermal emission from optically thick and optically thin dust components. We hypothesize that dust in the innermost parts of the disks (≤0.1 au) has been sublimated, and thus the disks are no longer well shielded against the ionizing photons. The estimated overall gas and dust mass based on SED modeling, can be as high as a fraction of a solar mass, which is adequate for developing disk gravitational instability. Our present explanation for the observational data is that the massive inflow of gas and dust due to disk gravitational instability or interaction with a companion/intruder, was piled up at the few-au scale due to the development of a deadzone with negligible ionization. The piled up material subsequently triggered the thermal instability and the magnetorotational instability when the ionization fraction in the inner sub-au scale region exceeded a threshold value, leading to the high protostellar accretion rate. [ABSTRACT FROM AUTHOR]

Published

2017

28. Accretion dynamics of EX Lupi in quiescence.

Author

Sicilia-Aguilar, Aurora, Fang, Min, Roccatagliata, Veronica, Cameron, Andrew Collier, Kóspál, Ágnes, Henning, Thomas, Ábrahám, Peter, and Sipos, Nikoletta

Subjects

VARIABLE stars, ACCRETION (Astrophysics), QUIESCENT plasmas, T Tauri stars, RADIAL velocity of stars, DISKS (Astrophysics), EMISSION spectroscopy

Abstract

Context. EX Lupi is a young, accreting M0 star and the prototype of EXor variable stars. Its spectrum is very rich in emission lines, including many metallic lines with narrow and broad components. The presence of a close companion has also been proposed, based on radial velocity signatures. Aims. We use the metallic emission lines to study the accretion structures and to test the companion hypothesis. Methods. We analyse 54 spectra obtained during five years of quiescence time. We study the line profile variability and the radial velocity of the narrow and broad metallic emission lines. We use the velocity signatures of different species with various excitation conditions and their time dependency to track the dynamics associated with accretion. Results. We observe periodic velocity variations in the broad and the narrow line components, consistent with rotational modulation. The modulation is stronger for lines with higher excitation potentials (e.g. He II), which are likely produced in a confined area very close to the accretion shock. Conclusions. We propose that the narrow line components are produced in the post-shock region, while the broad components originate in the more extended, pre-shock material in the accretion column. All the emission lines suffer velocity modulation due to the rotation of the star. The broad components are responsible for the line-dependent veiling observed in EX Lupi. We demonstrate that a rotationally modulated line-dependent veiling can explain the radial velocity signature of the photospheric absorption lines, making the close-in companion hypothesis unnecessary. The accretion structure is locked to the star and very stable during the five years of observations. Not all stars with similar spectral types and accretion rates show the same metallic emission lines, which could be related to differences in temperature and density in their accretion structure(s). The contamination of photospheric signatures by accretion-related processes can be turned into a very useful tool for determining the innermost details of the accretion channels in the proximity of the star. The presence of emission lines from very stable accretion columns will nevertheless be a very strong limitation for the detection of companions by radial velocity in young stars, given the similarity of the accretion-related signatures with those produced by a companion. [ABSTRACT FROM AUTHOR]

Published

2015

29. AN ANALYSIS OF THE ENVIRONMENTS OF FU ORIONIS OBJECTS WITH HERSCHEL.

Author

GREEN, JOEL D., EVANS II, NEAL J., KÓSPÁL, ÁGNES, HERCZEG, GREGORY, QUANZ, SASCHA P., HENNING, THOMAS, VAN KEMPEN, TIM A., JEONG-EUN LEE, DUNHAM, MICHAEL M., MEEUS, GWENDOLYN, BOUWMAN, JEROEN, JO-HSIN CHEN, GÜDEL, MANUEL, SKINNER, STEPHEN L., LIEBHART, ARMIN, and MERELLO, MANUEL

Subjects

METEOR showers, PROTOSTARS, T Tauri stars, BIPOLAR outflows (Astrophysics), VARIABLE stars, HERBIG Ae/Be stars

Abstract

We present Herschel-HIFI, SPIRE, and PACS 50-670 μm imaging and spectroscopy of six FU Orionis-type objects and candidates (FU Orionis, V1735 Cyg, V1515 Cyg, V1057 Cyg, V1331 Cyg, and HBC 722), ranging in outburst date from 1936 to 2010, from the "FOOSH" (FU Orionis Objects Surveyed with Herschel) program, as well as ancillary results from Spitzer Infrared Spectrograph and the Caltech Submillimeter Observatory. In their system properties (Lbol, Tbol, and line emission), we find that FUors are in a variety of evolutionary states. Additionally, some FUors have features of both Class I and II sources: warm continuum consistent with Class II sources, but rotational line emission typical of Class I, far higher than Class II sources of similar mass/luminosity. Combining several classification techniques, we find an evolutionary sequence consistent with previous mid-IR indicators. We detect [O I] in every source at luminosities consistent with Class 0/I protostars, much greater than in Class II disks. We detect transitions of 13CO (Jup of 5-8) around two sources (V1735 Cyg and HBC 722) but attribute them to nearby protostars. Of the remaining sources, three (FU Ori, V1515 Cyg, and V1331 Cyg) exhibit only low-lying CO, but one (V1057 Cyg) shows CO up to J = 23 → 22 and evidence for H2O and OH emission, at strengths typical of protostars rather than T Tauri stars. Rotational temperatures for "cool" CO components range from 20 to 81 K, for ~ 1050 total CO molecules. We detect [C I] and [N II] primarily as diffuse emission. [ABSTRACT FROM AUTHOR]

Published

2013

30. Disks around FUor-type young eruptive stars with ALMA.

Author

Cruz-Sáenz de Miera, Fernando, Kóspál, Ágnes, Ábraham, Péter, Liu, Hauyu Baobab, and Takami, Michihiro

Abstract

A long-standing problem of the general paradigm of low-mass star formation is the "luminosity problem": protostars are less luminous than theoretically predicted. One possible solution is that the accretion process is episodic. FU Orionis-type stars (FUors) are thought to be the visible examples for objects in the high accretion state and it is still debated what physical mechanism triggers the phenomenon. For many of these objects their disk properties are still largely unknown so we conducted a deep, high spatial resolution (down to 20 au) ALMA Band 6 (1.3 mm) dust continuum survey of a sub-sample of known FUors. Here we present preliminary results of our survey, including the mass, size and spectral slope of each disk. [ABSTRACT FROM AUTHOR]

Published

2018

31. Chemical modeling of FU Ori protoplanetary disks.

Author

Molyarova, Tamara, Akimkin, Vitaly, Semenov, Dmitry, Ábrahám, Péter, Henning, Thomas, Kóspál, Ágnes, Vorobyov, Eduard, and Wiebe, Dmitri

Abstract

Luminosity outbursts of the FU Ori type stars, which have a magnitude of ∼ 100 L ⊙ and last for decades, may affect chemical composition of the surrounding protoplanetary disk. Using astrochemical modelling we analyse the changes induced by the outburst and search for species sensitive to the luminosity rise. Some changes in the disk molecular composition appear not only during the outburst itself but can also retain for decades after the end of the outburst. We analyse main chemical processes responsible for these effects and assess timescales at which chemically inert species return to the pre-outburst abundances. [ABSTRACT FROM AUTHOR]

Published

2018

32. The inner disks of EXor-type eruptive stars.

Author

Sipos, Nikoletta and Kóspál, Ágnes

Abstract

EX Lupi-type young stars (EXors) show sporadic brightenings of several magnitudes, caused by the episodic increase in the accretion rate of the circumstellar matter onto the young star. As the inner disk plays a crucial role during the onset of the outburst, we examined the quiescent properties of the circumstellar environment of EXors, focusing on the inner regions. We found that in case of three EXors (VY Tau, V1143 Ori and EX Lup) the spectral energy distributions show no or weak excess above the stellar photosphere at NIR-MIR wavelengths, indicative of inner disk clearing. A detailed radiative transfer modeling of the sources revealed that the inner regions of these disks had to go through significant evolution, either the inner radius of the dusty disk is beyond the sublimation radius and/or the inner disks are flattened. [ABSTRACT FROM PUBLISHER]

Published

2013

33. ON THE RELATIONSHIP BETWEEN DEBRIS DISKS AND PLANETS.

Author

Kóspál, Ágnes, Ardila, David R., Moór, Attila, and Ábrahám, Péter

Published

2009