Your search keyword '"Montargès, Miguel"' showing total 39 results

1. First Resolution of Microlensed Images of a Binary-Lens Event

Author

Wu, Zexuan, Dong, Subo, Mérand, A., Kochanek, Christopher S., Mróz, Przemek, Shangguan, Jinyi, Christie, Grant, Tan, Thiam-Guan, Bensby, Thomas, Bland-Hawthorn, Joss, Buder, Sven, Eisenhauer, Frank, Gould, Andrew P., Kos, Janez, Natusch, Tim, Sharma, Sanjib, Udalski, Andrzej, Woillez, J., Buckley, David A. H., Thompson, I. B., Dayem, Karim Abd El, Alecian, Evelyne, Babusiaux, Carine, Berdeu, Anthony, Berger, Jean-Philippe, Bourdarot, Guillaume, Brandner, Wolfgang, Clavel, Maica, Davies, Richard I., Defrère, Denis, Dougados, Catherine, Drescher, Antonia, Eckart, Andreas, Fabricius, Maximilian, Feuchtgruber, Helmut, Schreiber, Natascha M. Förster, Garcia, Paulo, Genzel, Reinhard, Gillessen, Stefan, Heißel, Gernot, Hönig, Sebastian, Houlle, Mathis, Kervella, Pierre, Kreidberg, Laura, Lacour, Sylvestre, Lai, Olivier, Laugier, Romain, Bouquin, Jean-Baptiste Le, Leftley, James, Lopez, Bruno, Lutz, Dieter, Mang, Felix, Millour, Florentin, Montargès, Miguel, Nowacki, Hugo, Nowak, Mathias, Ott, Thomas, Paumard, Thibaut, Perraut, Karine, Perrin, Guy, Petrov, Romain, Petrucci, Pierre-Olivier, Pourre, Nicolas, Rabien, Sebastian, Ribeiro, Diogo C., Robbe-Dubois, Sylvie, Bordoni, Matteo Sadun, Santos, Daryl, Sauter, Jonas, Scigliuto, Jules, Shimizu, Taro T., Straubmeier, Christian, Sturm, Eckhard, Subroweit, Matthias, Sykes, Calvin, Tacconi, Linda, Vincent, Frédéric, and Widmann, Felix

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We resolve the multiple images of the binary-lens microlensing event ASASSN-22av using the GRAVITY instrument of the Very Large Telescope Interferometer (VLTI). The light curves show weak binary perturbations, complicating the analysis, but the joint modeling with the VLTI data breaks several degeneracies, arriving at a strongly favored solution. Thanks to precise measurements of angular Einstein radius \theta_E = 0.726 +/- 0.002 mas and microlens parallax, we determine that the lens system consists of two M dwarfs with masses of M_1 = 0.261 +/- 0.009 M_sun and M_2 = 0.252 +/- 0.017 M_sun, a projected separation of r_\perp = 7.42 +/- 0.33 AU and a distance of D_L = 2.31 +/- 0.09 kpc. The successful VLTI observations of ASASSN-22av open up a new path for studying intermediate-separation (i.e., a few AUs) stellar-mass binaries, including those containing dark compact objects such as neutron stars and stellar-mass black holes., Comment: see the ancillary file for animation associated with Fig. 8

Published

2024

2. Time-Evolution Images of the Hypergiant RW Cephei During the Re-brightening Phase Following the Great Dimming

Author

Anugu, Narsireddy, Gies, Douglas R., Roettenbacher, Rachael M., Monnier, John D., Montargés, Miguel, Mérand, Antoine, Baron, Fabien, Schaefer, Gail H., Shepard, Katherine A., Kraus, Stefan, Anderson, Matthew D., Codron, Isabelle, Gardner, Tyler, Gutierrez, Mayra, Köhler, Rainer, Kubiak, Karolina, Lanthermann, Cyprien, Majoinen, Olli, Scott, Nicholas J., and Vollmann, Wolfgang

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Stars with initial masses larger than 8 solar masses undergo substantial mass loss through mechanisms that remain elusive. Unraveling the origins of this mass loss is important for comprehending the evolutionary path of these stars, the type of supernova explosion and whether they become neutron stars or black hole remnants. In 2022 December, RW Cep experienced the Great Dimming in its visible brightness, presenting a unique opportunity to understand mass loss mechanisms. Our previous observations of RW Cep from the CHARA Array, taken during the dimming phase, show a compelling asymmetry in the star images, with a darker zone on the west side of the star indicating presence of dust in front of the star in our line of sight. Here, we present multi-epoch observations from CHARA while the star re-brightened in 2023. We created images using three image reconstruction methods and an analytical model fit. Comparisons of images acquired during the dimming and re-brightening phases reveal remarkable differences. Specifically, the west side of RW Cep, initially obscured during the dimming phase, reappeared during the subsequent re-brightening phase and the measured angular diameter became larger by 8%. We also observed image changes from epoch to epoch while the star is brightening indicating the time evolution of dust in front of the star. We suggest that the dimming of RW Cep was a result from a recent surface mass ejection event, generating a dust cloud that partially obstructed the stellar photosphere., Comment: Accepted by The Astrophysical Journal Letters (ApJL)

Published

2024

3. CHARA Near-Infrared Imaging of the Yellow Hypergiant Star $\rho$ Cassiopeiae: Convection Cells and Circumstellar Envelope

Author

Anugu, Narsireddy, Baron, Fabien, Monnier, John D., Gies, Douglas R., Roettenbacher, Rachael M., Schaefer, Gail H., Montargès, Miguel, Kraus, Stefan, Bouquin, Jean-Baptiste Le, Anderson, Matthew D., Brummelaar, Theo ten, Codron, Isabelle, Farrington, Christopher D., Gardner, Tyler, Gutierrez, Mayra, Köhler, Rainer, Lanthermann, Cyprien, Norris, Ryan, Scott, Nicholas J., Setterholm, Benjamin R., and Vargas, Norman L.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Massive evolved stars such as red supergiants and hypergiants are potential progenitors of Type II supernovae, and they are known for ejecting substantial amounts of matter, up to half their initial mass, during their final evolutionary phases. The rate and mechanism of this mass loss play a crucial role in determining their ultimate fate and the likelihood of their progression to supernovae. However, the exact mechanisms driving this mass ejection have long been a subject of research. Recent observations, such as the Great Dimming of Betelgeuse, have suggested that the activity of large convective cells, combined with pulsation, could be a plausible explanation for such mass loss events. In this context, we conducted interferometric observations of the famous yellow hypergiant, $\rho$ Cassiopeiae using the CHARA Array in H and K-band wavelengths. $\rho$ Cas is well known for its recurrent eruptions, characterized by periods of visual dimming ($\sim$1.5-2 mag) followed by recovery. From our observations, we derived the diameter of the limb-darkened disk and found that this star has a radius of $1.04\pm0.01$ milliarcseconds (mas), or $564 - 700 R_\odot$. We performed image reconstructions with three different image reconstruction software packages, and they unveiled the presence of giant hot and cold spots on the stellar surface. We interpret these prominent hot spots as giant convection cells, suggesting a possible connection to mass ejections from the star's envelope. Furthermore, we detected spectral CO emission lines in the K-band ($\lambda=2.31-2.38 \mu$m), and the image reconstructions in these spectral lines revealed an extended circumstellar envelope with a radius of $1.45\pm0.10$ mas., Comment: 21 pages, 13 figures, 4 tables, Accepted by ApJ

Published

2024

4. The Great Dimming of Betelgeuse: a Surface Mass Ejection (SME) and its Consequences

Author

Dupree, Andrea K., Strassmeier, Klaus G., Calderwood, Thomas, Granzer, Thomas, Weber, Michael, Kravchenko, Kateryna, Matthews, Lynn D., Montarges, Miguel, Tappin, James, and Thompson, William T.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The bright supergiant, Betelgeuse (Alpha Orionis, HD 39801), underwent a historic optical dimming during 2020 January 27 $-$ February 13. Many imaging and spectroscopic observations across the electromagnetic spectrum were obtained prior to, during, and subsequent to this dimming event. These observations of Betelgeuse reveal that a substantial surface mass ejection (SME) occurred and moved out through the extended atmosphere of the supergiant. A photospheric shock occurred in 2019 January - March, progressed through the extended atmosphere of the star during the following 11 months and led to dust production in the atmosphere. Resulting from the substantial mass outflow, the stellar photosphere was left with lower temperatures and the chromosphere with a lower density. The mass ejected could represent a significant fraction of the total annual mass loss rate from the star suggesting that episodic mass loss events can contribute an amount comparable to that of the stellar wind. Following the SME, Betelgeuse was left with a cooler average photosphere, an unusual short photometric oscillation, reduced velocity excursions, and the disappearance of the $\sim$400-day pulsation in the optical and radial velocity for more than two years following the Great Dimming., Comment: The Astrophysical Journal, 2022, to be published Aug 4, 2022

Published

2022

5. Long Term Evolution of Surface Features on the Red Supergiant AZ Cyg

Author

Norris, Ryan P., Baron, Fabien R., Monnier, John D., Paladini, Claudia, Anderson, Matthew D., Martinez, Arturo O., Schaefer, Gail H., Che, Xiao, Chiavassa, Andrea, Connelley, Michael S., Farrington, Christopher D., Gies, Douglas R., Kiss, László L., Lester, John B., Montargès, Miguel, Neilson, Hilding R., Majoinen, Olli, Pedretti, Ettore, Ridgway, Stephen T., Roettenbacher, Rachael M., Scott, Nicholas J., Sturmann, Judit, Sturmann, Laszlo, Thureau, Nathalie, Vargas, Norman, and Brummelaar, Theo A. ten

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present H-band interferometric observations of the red supergiant (RSG) AZ Cyg made with the Michigan Infra-Red Combiner (MIRC) at the six-telescope Center for High Angular Resolution Astronomy (CHARA) Array. The observations span 5 years (2011-2016), offering insight into the short and long-term evolution of surface features on RSGs. Using a spectrum of AZ Cyg obtained with SpeX on the NASA InfraRed Telescope Facility (IRTF) and synthetic spectra calculated from spherical MARCS, spherical PHOENIX, and SAtlas model atmospheres, we derive $T_{\text{eff}}$ is between $3972 K$ and $4000 K$ and $\log~g$ between $-0.50$ and $0.00$, depending on the stellar model used. Using fits to the squared visibility and Gaia parallaxes we measure its average radius $R=911^{+57}_{-50}~R_{\odot}$. Reconstructions of the stellar surface using our model-independent imaging codes SQUEEZE and OITOOLS.jl show a complex surface with small bright features that appear to vary on a timescale of less than one year and larger features that persist for more than one year. 1D power spectra of these images suggest a characteristic size of $0.52-0.69~R_{\star}$ for the larger, long lived features. This is close to the values of $0.51-0.53~R_{\star}$ derived from 3D RHD models of stellar surfaces. We conclude that interferometric imaging of this star is in line with predictions of 3D RHD models but that short-term imaging is needed to more stringently test predictions of convection in RSGs., Comment: 31 pages, 8 tables, 14 figures, accepted to ApJ

Published

2021

6. Atomium: The astounding complexity of the near circumstellar environment of the M-type AGB star R Hydrae. I. Morpho-kinematical interpretation of CO and SiO emission

Author

Homan, Ward, Pimpanuwat, Bannawit, Herpin, Fabrice, Danilovich, Taissa, McDonald, Iain, Wallström, Sofia H. J., Richards, Anita M. S., Baudry, Alain, Sahai, Raghvendra, Millar, Tom J., de Koter, Alex, Gottlieb, C. A., Kervella, Pierre, Montargès, Miguel, Van de Sande, Marie, Decin, Leen, Zijlstra, Albert, Etoka, Sandra, Jeste, Manali, Müller, Holger S. P., Maes, Silke, Malfait, Jolien, Menten, Karl, Plane, John, Lee, Kelvin, Waters, Rens, Wong, Ka Tat, Lagadec, Eric, Gobrecht, David, Yates, Jeremy, Price, Daniel, Cannon, Emily, Bolte, Jan, De Ceuster, Frederik, Nuth, Joe, Sindel, Jan philip, Kee, Dylan, Gray, Malcolm D., and Mellah, Ileyk El

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Evolved low- to intermediate-mass stars are known to shed their gaseous envelope into a large, dusty, molecule-rich circumstellar nebula which typically develops a high degree of structural complexity. Most of the large-scale, spatially correlated structures in the nebula are thought to originate from the interaction of the stellar wind with a companion. As part of the Atomium large programme, we observed the M-type asymptotic giant branch (AGB) star R Hydrae with ALMA. The morphology of the inner wind of R Hya, which has a known companion at ~3500 au, was determined from maps of CO and SiO obtained at high angular resolution. A map of the CO emission reveals a multi-layered structure consisting of a large elliptical feature at an angular scale of ~10'' that is oriented along the north-south axis. The wind morphology within the elliptical feature is dominated by two hollow bubbles. The bubbles are on opposite sides of the AGB star and lie along an axis with a position angle of ~115 deg. Both bubbles are offset from the central star, and their appearance in the SiO channel maps indicates that they might be shock waves travelling through the AGB wind. An estimate of the dynamical age of the bubbles yields an age of the order of 100 yr, which is in agreement with the previously proposed elapsed time since the star last underwent a thermal pulse. When the CO and SiO emission is examined on subarcsecond angular scales, there is evidence for an inclined, differentially rotating equatorial density enhancement, strongly suggesting the presence of a second nearby companion. The position angle of the major axis of this disc is ~70 deg in the plane of the sky. We tentatively estimate that a lower limit on the mass of the nearby companion is ~0.65 Msol on the basis of the highest measured speeds in the disc and the location of its inner rim at ~6 au from the AGB star., Comment: 21 pages, 23 figures

Published

2021

7. Atomium: A high-resolution view on the highly asymmetric wind of the AGB star Pi1 Gruis. I. First detection of a new companion and its effect on the inner wind

Author

Homan, Ward, Montarges, Miguel, Pimpanuwat, Bannawit, Richards, Anita M. S., Wallstrom, Sofia H. J., Kervella, Pierre, Decin, Leen, Zijlstra, Albert, Danilovich, Taissa, de Koter, Alex, Menten, Karl, Sahai, Raghvendra, Plane, John, Lee, Kelvin, Waters, Rens, Baudry, Alain, Wong, Ka Tat, Millar, Tom J., Van de Sande, Marie, Lagadec, Eric, Gobrecht, David, Yates, Jeremy, Price, Daniel, Cannon, Emily, Bolte, Jan, De Ceuster, Frederik, Herpin, Fabrice, Nuth, Joe, Sindel, Jan Philip, Kee, Dylan, Grey, Malcolm D., Etoka, Sandra, Jeste, Manali, Gottlieb, Carl A., Gottlieb, Elaine, McDonald, Iain, Mellah, Ileyk El, and Muller, Holger S. P.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The nebular circumstellar environments of cool evolved stars are known to harbour a rich morphological complexity of gaseous structures on different length scales. A large part of these density structures are thought to be brought about by the interaction of the stellar wind with a close companion. The S-type asymptotic giant branch star Pi1 Gruis, which has a known companion at ~440 au and is thought to harbour a second, closer-by (<10 au) companion, was observed with the Atacama Large Millimeter/submillimeter Array as part of the ATOMIUM Large programme. In this work, the brightest CO, SiO, and HCN molecular line transitions are analysed. The continuum map shows two maxima, separated by 0.04'' (6 au). The CO data unambiguously reveal that Pi1 Gru's circumstellar environment harbours an inclined, radially outflowing, equatorial density enhancement. It contains a spiral structure at an angle of 38+/-3 deg with the line-of-sight. The HCN emission in the inner wind reveals a clockwise spiral, with a dynamical crossing time of the spiral arms consistent with a companion at a distance of 0.04'' from the asymptotic giant branch star, which is in agreement with the position of the secondary continuum peak. The inner wind dynamics imply a large acceleration region, consistent with a beta-law power of ~6. The CO emission suggests that the spiral is approximately Archimedean within 5'', beyond which this trend breaks down as the succession of the spiral arms becomes less periodic. The SiO emission at scales smaller than 0.5'' exhibits signatures of gas in rotation, which is found to fit the expected behaviour of gas in the wind-companion interaction zone. An investigation of SiO maser emission reveals what could be a stream of gas accelerating from the surface of the AGB star to the companion. Using these dynamics, we have tentatively derived an upper limit on the companion mass to be ~1.1 Msol., Comment: 19 pages, 20 figures

Published

2020

8. Betelgeuse scope: Single-mode-fibers-assisted optical interferometer design for dedicated stellar activity monitoring

Author

Anugu, Narsireddy, Morzinski, Katie M., Eisner, Josh, Douglas, Ewan, Marrone, Dan, Ertel, Steve, Haffert, Sebastiaan, Montoya, Oscar, Stone, Jordan, Kraus, Stefan, Monnier, John, Lebouquin, Jean-Baptiste, Berger, Jean-Philippe, Woillez, Julien, and Montargès, Miguel

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Betelgeuse has gone through a sudden shift in its brightness and dimmed mysteriously. This is likely caused by a hot blob of plasma ejected from Betelgeuse and then cooled to obscuring dust. If true, it is a remarkable opportunity to directly witness the formation of dust around a red supergiant star. Today's optical telescope facilities are not optimized for time-evolution monitoring of the Betelgeuse surface, so in this work, we propose a low-cost optical interferometer. The facility will consist of $12 \times 4$ inch optical telescopes mounted on the surface of a large radio dish for interferometric imaging; polarization-maintaining single-mode fibers will carry the coherent beams from the individual optical telescopes to an all-in-one beam combiner. A fast steering mirror assisted fiber injection system guides the flux into fibers. A metrology system senses vibration-induced piston errors in optical fibers, and these errors are corrected using fast-steering delay lines. We will present the design., Comment: Presented at SPIE Optics+Photonics conference, 9 pages, 3 figures

Published

2020

9. A detailed view on the circumstellar environment of the M-type AGB star EP Aquarii I. High-resolution ALMA and SPHERE observations

Author

Homan, Ward, Cannon, Emily, Montargès, Miguel, Richards, Anita M. S., Millar, Tom J., and Decin, Leen

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Cool evolved stars are known to be significant contributors to the enrichment of the interstellar medium through their dense and dusty stellar winds. High resolution observations of these outflows have shown them to possess high degrees of morphological complexity. We observed the asymptotic giant branch (AGB) star EP Aquarii with ALMA in band 6 and VLT/SPHERE/ZIMPOL in four filters the visible. Both instruments had an angular resolution of 0.025''. These are follow-up observations to the lower-resolution 2016 ALMA analysis of EP Aquarii, which revealed that its wind possesses a nearly face-on, spiral-harbouring equatorial density enhancement, with a nearly pole-on bi-conical outflow. At the base of the spiral, the SiO emission revealed a distinct emission void approximately 0.4'' to the west of the continuum brightness peak, which was proposed to be linked to the presence of a companion. The new ALMA data better resolve the inner wind and reveal that its morphology as observed in CO is consistent with hydrodynamical companion-induced perturbations. Assuming that photodissociation by the UV-field of the companion is responsible for the emission void in SiO, we deduced the spectral properties of the tentative companion from the size of the hole. We conclude that the most probable companion candidate is a white dwarf with a mass between 0.65 and 0.8 Msol , though a solar-like companion could not be definitively excluded. The radial SiO emission shows periodic, low-amplitude perturbations. We tentatively propose that they could be the consequence of the interaction of the AGB wind with another much closer low-mass companion. The polarised SPHERE/ZIMPOL data show a circular signal surrounding the AGB star with a radius of 0.1''..., Comment: 24 pages, 25 Figures

Published

2020

10. Spatially Resolved Ultraviolet Spectroscopy of the Great Dimming of Betelgeuse

Author

Dupree, Andrea K., Strassmeier, Klaus G., Matthews, Lynn D., Uitenbroek, Han, Calderwood, Thomas, Granzer, Thomas, Guinan, Edward F, Leike, Reimar, Montargès, Miguel, Richards, Anita M. S., Wasatonic, Richard, and Weber, Michael

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The bright supergiant, Betelgeuse (Alpha Orionis, HD 39801) experienced a visual dimming during 2019 December and the first quarter of 2020 reaching an historic minimum 2020 February 7$-$13. During 2019 September-November, prior to the optical dimming event, the photosphere was expanding. At the same time, spatially resolved ultraviolet spectra using the Hubble Space Telescope/Space Telescope Imaging Spectrograph revealed a substantial increase in the ultraviolet spectrum and Mg II line emission from the chromosphere over the southern hemisphere of the star. Moreover, the temperature and electron density inferred from the spectrum and C II diagnostics also increased in this hemisphere. These changes happened prior to the Great Dimming Event. Variations in the Mg II k-line profiles suggest material moved outwards in response to the passage of a pulse or acoustic shock from 2019 September through 2019 November. It appears that this extraordinary outflow of material from the star, likely initiated by convective photospheric elements, was enhanced by the coincidence with the outward motions in this phase of the $\sim$400 day pulsation cycle. These ultraviolet observations appear to provide the connecting link between the known large convective cells in the photosphere and the mass ejection event that cooled to form the dust cloud in the southern hemisphere imaged in 2019 December, and led to the exceptional optical dimming of Betelgeuse in 2020 February., Comment: 11 pages, 8 figures, Astrophysical Journal, accepted

Published

2020

11. Cool, evolved stars: results, challenges, and promises for the next decade

Author

Rau, Gioia, Montez Jr., Rodolfo, Carpenter, Kenneth G., Wittkowski, Markus, Bladh, Sara, Karovska, Margarita, Airapetian, Vladimir, Ayres, Tom, Boyer, Martha, Chiavassa, Andrea, Clayton, Geoffrey, Danchi, William, De Marco, Orsola, Dupree, Andrea K., Kaminski, Tomasz, Kastner, Joel H., Kerschbaum, Franz, Linsky, Jeffrey, Lopez, Bruno, Monnier, John, Montargès, Miguel, Nielsen, Krister, Ohnaka, Keiichi, Ramstedt, Sofia, Roettenbacher, Rachael, Brummelaar, Theo ten, Paladini, C., Sarangi, Arkaprabha, van Belle, Gerard, and Ventura, Paolo

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Cool, evolved stars are the main source of chemical enrichment of the interstellar medium (ISM), and understanding their mass loss and structure offers a unique opportunity to study the cycle of matter in the Universe. Pulsation, convection, and other dynamic processes in cool evolved stars create an atmosphere where molecules and dust can form, including those necessary to the formation of life (e.g.~Carbon-bearing molecules). Understanding the structure and composition of these stars is thus vital to several aspects of stellar astrophysics, ranging from ISM studies to modeling young galaxies and exoplanet research. Recent modeling efforts and increasingly precise observations now reveal that our understanding of cool stars photospheric, chromospheric, and atmospheric structures is limited by inadequate knowledge of the dynamic and chemical processes at work. Here we outline promising scientific opportunities for the next decade. We identify and discuss the following main opportunities: (1) identify and model the physical processes that must be included in current 1D and 3D atmosphere models of cool, evolved stars; (2) refine our understanding of photospheric, chromospheric, and outer atmospheric regions of cool evolved stars, their properties and parameters, through high-resolution spectroscopic observations, and interferometric observations at high angular resolution; (3) include the neglected role of chromospheric activity in the mass loss process of red giant branch and red super giant stars, and understand the role played by their magnetic fields; (4) identify the important shaping mechanisms for planetary nebulae and their relation with the parent asymptotic giant branch stars., Comment: 10 pages, 2 figures, White Paper submitted to the Astronomy and Astrophysics Decadal Survey (Astro2020)

Published

2019

12. The close circumstellar environment of Betelgeuse - V. Rotation velocity and molecular envelope properties from ALMA

Author

Kervella, Pierre, Decin, Leen, Richards, Anita M. S., Harper, Graham M., McDonald, Iain, O'Gorman, Eamon, Montargès, Miguel, Homan, Ward, and Ohnaka, Keiichi

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We observed Betelgeuse using ALMA's extended configuration in band 7 (f~340 GHz, {\lambda}~0.88 mm), resulting in a very high angular resolution of 18 mas. Using a solid body rotation model of the 28SiO(v=2,J=8-7) line emission, we show that the supergiant is rotating with a projected equatorial velocity of v_eq sin i = 5.47 +/- 0.25 km/s at the equivalent continuum angular radius R_star = 29.50 +/- 0.14 mas. This corresponds to an angular rotation velocity of {\omega} sin i = (5.6 +/- 1.3) x 10^(-9) rad/s. The position angle of its north pole is PA = 48.0 +/- 3.5{\deg}. The rotation period of Betelgeuse is estimated to P/sin i = 36 +/- 8 years. The combination of our velocity measurement with previous observations in the ultraviolet shows that the chromosphere is co-rotating with the star up to a radius of ~10 au (45 mas or 1.5x the ALMA continuum radius). The coincidence of the position angle of the polar axis of Betelgeuse with that of the major ALMA continuum hot spot, a molecular plume, and a partial dust shell (from previous observations) suggests that focused mass loss is currently taking place in the polar region of the star. We propose that this hot spot corresponds to the location of a particularly strong "rogue" convection cell, which emits a focused molecular plume that subsequently condenses into dust at a few stellar radii. Rogue convection cells therefore appear to be an important factor shaping the anisotropic mass loss of red supergiants., Comment: 18 pages, 19 figures, accepted for publication in A&A, update of bibliography and acknowledgements

Published

2017

13. The convection of close red supergiant stars observed with near-infrared interferometry

Author

Montargès, Miguel, Kervella, Pierre, Perrin, Guy, Chiavassa, Andrea, and Aurière, Michel

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Our team has obtained observations of the photosphere of the two closest red supergiant stars Betelgeuse ($\alpha$ Ori) and Antares ($\alpha$ Sco) using near infrared interferometry. We have been monitoring the photosphere of Betelgeuse with the VLTI/PIONIER instrument for three years. On Antares, we obtained an unprecedented sampling of the visibility function. These data allow us to probe the convective photosphere of massive evolved stars., Comment: 5 pages, 3 figures. Published in the proceedings of the Physics Of Evolved Stars conference, dedicated to the memory of Olivier Chesneau (Nice, France, 2015)

Published

2015

14. Properties of the CO and H$_2$O MOLsphere of the red supergiant Betelgeuse from VLTI/AMBER observations

Author

Montargès, Miguel, Kervella, Pierre, Perrin, Guy, Ohnaka, Keiichi, Chiavassa, Andrea, Ridgway, Stephen T., and Lacour, Sylvestre

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Context. Betelgeuse is the closest red supergiant (RSG); therefore, it is well suited for studying the complex processes in its atmosphere that lead to the chemical enrichment of the interstellar medium. Aims. We intend to investigate the shape and composition of the close molecular layer (also known as the MOLsphere) that surrounds the star. This analysis is part of a wider program that aims at understanding the dynamics of the circumstellar envelope of Betelgeuse. Methods. On January and February 2011, Betelgeuse was observed using the Astronomical Multi-BEam combineR (AMBER) instrument of the Very Large Telescope Interferometer (VLTI) in the H and K bands. Using the medium spectral resolution of the instrument (R $\sim$ 1500), we were able to investigate the carbon monoxide band heads and the water-vapor bands. We used two different approaches to analyse our data: a model fit in both the continuum and absorption lines and then a fit with a Radiative HydroDynamics (RHD) simulation. Results. Using the continuum data, we derive a uniform disk diameter of $41.01 \pm 0.41$~mas, a power law type limb-darkened disk diameter of $42.28 \pm 0.43$~mas and a limb-darkening exponent of $0.155 \pm 0.009$. Within the absorption lines, using a single layer model, we obtain parameters of the MOLsphere. Using a RHD simulation, we unveil the convection pattern in the visibilities. Conclusions. We derived a new value of the angular diameter of Betelgeuse in the K band continuum. Our observations in the absorption lines are well reproduced by a molecular layer at 1.2 stellar radii containing both CO and H$_2$O. The visibilities at higher spatial frequencies are matching a convection pattern in a RHD simulation., Comment: 13 pages, 11 figures, accepted for publication in Astronomy & Astrophysics; Language editing

Published

2014

15. An edge-on translucent dust disk around the nearest AGB star L2 Puppis - VLT/NACO spectro-imaging from 1.04 to 4.05 microns and VLTI interferometry

Author

Kervella, Pierre, Montargès, Miguel, Ridgway, Stephen T., Perrin, Guy, Chesneau, Olivier, Lacour, Sylvestre, Chiavassa, Andrea, Haubois, Xavier, and Gallenne, Alexandre

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

As the nearest known AGB star (d=64pc) and one of the brightest (mK-2), L2 Pup is a particularly interesting benchmark object to monitor the final stages of stellar evolution. We report new lucky imaging observations of this star with the VLT/NACO adaptive optics system in twelve narrow band filters covering the 1.0-4.0 microns wavelength range. These diffraction limited images reveal an extended circumstellar dust lane in front of the star, that exhibits a high opacity in the J band and becomes translucent in the H and K bands. In the L band, extended thermal emission from the dust is detected. We reproduce these observations using Monte-Carlo radiative transfer modeling of a dust disk with the RADMC-3D code. We also present new interferometric observations with the VLTI/VINCI and MIDI instruments. We measure in the K band an upper limit to the limb-darkened angular diameter of theta_LD = 17.9 +/- 1.6 mas, converting to a maximum linear radius of R = 123 +/- 14 Rsun. Considering the geometry of the extended K band emission in the NACO images, this upper limit is probably close to the actual angular diameter of the star. The position of L2 Pup in the Herzsprung-Russell diagram indicates that this star has a mass around 2 Msun and is probably experiencing an early stage of the asymptotic giant branch. We do not detect any stellar companion of L2 Pup in our adaptive optics and interferometric observations, and we attribute its apparent astrometric wobble in the Hipparcos data to variable lighting effects on its circumstellar material. We however do not exclude the presence of a binary companion, as the large loop structure extending to more than 10 AU to the North-East of the disk in our L band images may be the result of interaction between the stellar wind of L2 Pup and a hidden secondary object. The geometric configuration that we propose, with a large dust disk seen almost edge-on, appears particularly favorable to test and develop our understanding of the formation of bipolar nebulae., Comment: 16 pages, 15 figures

Published

2014

16. Exploring the water and carbon monoxide shell around Betelgeuse with VLTI/AMBER

Author

Montargès, Miguel, Kervella, Pierre, Perrin, Guy, and Ohnaka, Keiichi

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present the results of the analysis of our recent interferometric observations of Betelgeuse, using the AMBER instrument of the VLTI. Using the medium spectral resolution mode ($R \sim 1500$) we detected the presence of the water vapour and carbon monoxide (CO) molecules in the H and K bands. We also derived the photospheric angular diameter in the continuum. By analysing the depth of the molecular lines and the interferometric visibilities, we derived the column densities of the molecules, as well as the temperature and the size of the corresponding regions in the atmosphere of Betelgeuse (the MOLsphere) using a single shell model around the photosphere. Our results confirm the findings by Perrin \et al\ (\cite{Perrin2004}) and Ohnaka \et al\ (\cite{Ohnaka2011}) that the H$_2$O and CO molecules are distributed around Betelgeuse in a MOLsphere extending to approximately 1.3 times the star's photospheric radius., Comment: Betelgeuse Workshop, November 2012, Paris. To be published in the European Astronomical Society Publications Series, 2013, Editors: Pierre Kervella, Thibaut Le Bertre \& Guy Perrin

Published

2013

17. Chemical tracers of a highly eccentric binary orbit

Author

Danilovich, Taissa, primary, Malfait, Jolien, additional, de Sande, Marie Van, additional, Montargès, Miguel, additional, Kervella, Pierre, additional, De Ceuster, Frederik, additional, Coenegrachts, Arnout, additional, Millar, Tom, additional, Richards, Anita, additional, Decin, Leen, additional, Gottlieb, Carl, additional, Pinte, Christophe, additional, De Beck, Elvire, additional, Price, Daniel, additional, Bolte, Jan, additional, Menten, Karl, additional, Baudry, Alain, additional, de Koter, Alexander, additional, Etoka, Sandra, additional, Gobrecht, David, additional, Gray, Malcolm, additional, Herpin, Fabrice, additional, Jeste, Manali, additional, Lagadec, Eric, additional, Maes, Silke, additional, McDonald, Iain, additional, Marinho, Louise, additional, Müller, Holger, additional, Pimpanuwat, Bannawit, additional, Plane, John, additional, Sahai, Raghvendra, additional, Wallström, Sofia, additional, Wong, Ka Tat, additional, Yates, Jeremy, additional, and Zijlstra, Albert, additional

Published

2023

18. The VLT/SPHERE view of the ATOMIUM cool evolved star sample

Author

Montargès, Miguel, Cannon, E., de Koter, A., Khouri, T., Lagadec, E., Kervella, P., Decin, L., Mcdonald, I., Homan, W., Waters, L., Sahai, R., Gottlieb, C., Malfait, J., Maes, S., Pimpanuwat, B., Jeste, M., Danilovich, T., de Ceuster, F., van de Sande, M., Gobrecht, D., Wallström, S., Wong, K., El Mellah, I., Bolte, J., Herpin, F., Richards, A., Baudry, A., Etoka, S., Gray, M., Millar, T., Menten, K., Müller, H., Plane, J., Yates, J., Zijlstra, A., Laboratoire d'études spatiales et d'instrumentation en astrophysique = Laboratory of Space Studies and Instrumentation in Astrophysics (LESIA), Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), European Project: 665501,H2020,H2020-MSCA-COFUND-2014,PEGASUS-2(2015), and European Project: 646758,H2020,ERC-2014-CoG,AEROSOL(2016)

Subjects

[SDU.ASTR.SR]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Solar and Stellar Astrophysics [astro-ph.SR]

Abstract

International audience; Context . Low- and intermediate-mass asymptotic giant stars and massive red supergiant stars are important contributors to the chemical enrichment of the Universe. They are among the most efficient dust factories of the Galaxy, harboring chemically rich circumstellar environments. Yet, the processes that lead to dust formation or the large-scale shaping of the mass loss still escape attempts at modeling. Aims . Through the A TOMIUM project, we aim to present a consistent view of a sample of 17 nearby cool evolved stars. Our goals are to unveil the dust-nucleation sites and morphologies of the circumstellar envelope of such stars and to probe ambient environments with various conditions. This will further enhance our understanding of the roles of stellar convection and pulsations, and that of companions in shaping the dusty circumstellar medium. Methods . Here we present and analyze VLT/SPHERE-ZIMPOL polarimetric maps obtained in the visible (645–820 nm) of 14 out of the 17 A TOMIUM sources. They were obtained contemporaneously with the ALMA high spatial resolution data. To help interpret the polarized signal, we produced synthetic maps of light scattering by dust, through 3D radiative transfer simulations with the RADMC3D code. Results . The degree of linear polarization (DoLP) observed by ZIMPOL spreads across several optical filters. We infer that it primarily probes dust located just outside of the point spread function of the central source, and in or near the plane of the sky. The polarized signal is mainly produced by structures with a total optical depth close to unity in the line of sight, and it represents only a fraction of the total circumstellar dust. The maximum DoLP ranges from 0.03–0.38 depending on the source, fractions that can be reproduced by our 3D pilot models for grains composed of olivine, melilite, corundum, enstatite, or forsterite. The spatial structure of the DoLP shows a diverse set of shapes, including clumps, arcs, and full envelopes. Only for three sources do we note a correlation between the ALMA CO υ = 0, J = 2−1 and SiO υ = 0, J = 5−4 lines, which trace the gas density, and the DoLP, which traces the dust. Conclusions . The clumpiness of the DoLP and the lack of a consistent correlation between the gas and the dust location show that, in the inner environment, dust formation occurs at very specific sites. This has potential consequences for the derived mass-loss rates and dust-to-gas ratio in the inner region of the circumstellar environment. Except for π 1 Gru and perhaps GY Aql, we do not detect interactions between the circumstellar wind and the hypothesized companions that shape the wind at larger scales. This suggests that the orbits of any other companions are tilted out of the plane of the sky.

Published

2023

19. The Great Dimming of Betelgeuse: A Surface Mass Ejection and Its Consequences

Author

Dupree, Andrea K., primary, Strassmeier, Klaus G., additional, Calderwood, Thomas, additional, Granzer, Thomas, additional, Weber, Michael, additional, Kravchenko, Kateryna, additional, Matthews, Lynn D., additional, Montargès, Miguel, additional, Tappin, James, additional, and Thompson, William T., additional

Published

2022

20. The Great Dimming of Betelgeuse revealed by tomography

Author

Kravchenko, Kateryna, Jorissen, Alain, Van Eyck, Sophie, Merle, Thibault, Chiavassa, Andrea, Paladini, Claudia, Freytag, Bernd, Plez, Bertrand, Montargès, Miguel, Van Winckel, Hans, and Montargès, Miguel

Subjects

Stars: evolution, Astrophysics::Solar and Stellar Astrophysics, Stars: mass-loss, supergiants, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Stars: individual: Betelgeuse, Astrophysics::Galaxy Astrophysics

Abstract

Despite being the best studied red supergiant star in our Galaxy, the physics behind the photometric variability and mass loss of Betelgeuse is poorly understood. Moreover, recently the star has experienced an unusual fading with its visual magnitude reaching a historical minimum. We investigate the nature of this event with the help of a recently developed tomographic technique. Tomography allows us to probe different depths in the stellar atmosphere and to recover the corresponding disk-averaged velocity field. We apply the tomographic method to a few-year time-series high-resolution spectroscopic observations of Betelgeuse in order to relate its atmospheric dynamics to the photometric variability. Our results show that a sudden increase of the molecular opacity in the cooler upper atmosphere of Betelgeuse is likely the reason of the observed unusual decrease of the star’s brightness., {"references":["Refereed publication: Kravchenko et al. 2021, https://doi.org/10.1051/0004-6361/202039801"]}

Published

2021

21. ATOMIUM: ALMA Tracing the Origins of Molecules In dUst forming oxygen-rich M-type stars

Author

Decin, Leen, Gottlieb, Carl, Richards, Anita, Baudry, Alain, Danilovich, Taissa, Cannon, Emily, Ceulemans, Thomas, De Ceuster, Frederik, De Koter, Alex, El Mellah, Ileyk, Etoka, Sandra, Gottlieb, Elaine, Gray, Malcolm, Herpin, Fabrice, Homan, Ward, Jeste, Manali, Kervella, Pierre, Maes, Silke, Malfait, Jolien, Marinho, Louise, Menten, Karl, Millar, Tom, McDonald, Iain, Montargès, Miguel, Müller, Holger, Pimpanuwat, Bannawit, Plane, John, Sahai, Ragvendra, Van De Sande, Marie, Wallström, Sofia, Wong, Ka Tat, and Consortium, The ATOMIUM

Abstract

The goals of the Atacama Large Millimeter/submillimeter Array (ALMA) Large Programme ATOMIUM are to obtain a quantitative understanding of the chemical and physical processes that govern the phase transition from small gaseous molecules to dust grains in the inner wind of oxygen-rich evolved stars; and to study the interplay between dynamical and chemical phenomena in the outflow of 17 asymptotic giant branch (AGB) and red supergiant (RSG) stars which span a range in (circum)stellar and wind properties — such as mass-loss rate, pulsation behaviour, and spatial structure of the wind-dominated ambient medium. The observations were made with three configurations of the ALMA array that encompass a range in angular resolution of approximately 0.02–1 arcseconds. They consist of 27-GHz-wide homogeneous spectral-line and continuum surveys in the 214–270 GHz range in each source in the sample, and provide an unambiguous comparison among sources. Equipped with these tools, we then show how the stellar winds of all the ATOMIUM sources exhibit distinct non-spherical geometries that can be explained by binary interaction and — depending on the parameters of the binary system — can produce a wide variety of morphologies as illustrated by the example of the AGB star π1 Gru. In parallel with ATOMIUM, contemporaneous observations of all but three of the 17 sources were made in the visible with the SPHERE/ZIMPOL instrument at ESO’s Very Large Telescope (VLT). The VLT/SPHERE observations provided direct images of the dust at a spatial resolution comparable to that obtained with ALMA. Novel hydrodynamical simulations of binary systems were done so as to further the interpretation of the near simultaneous observations of the gas and dust. We also present a brief overview of the 24 molecules that were identified in the survey, followed by a discussion of how the molecules inform us about the inner wind and the (super)giant outflow, and of some future possible observations with ALMA, ESO instruments, and the JWST., Published in The Messenger vol. 189, pp. 3-8, December 2022.

Published

2022

22. Long Term Evolution of Surface Features on the Red Supergiant AZ Cyg

Author

Norris, Ryan P., primary, Baron, Fabien R., additional, Monnier, John D., additional, Paladini, Claudia, additional, Anderson, Matthew D., additional, Martinez, Arturo O., additional, Schaefer, Gail H., additional, Che, Xiao, additional, Chiavassa, Andrea, additional, Connelley, Michael S., additional, Farrington, Christopher D., additional, Gies, Douglas R., additional, Kiss, László L., additional, Lester, John B., additional, Montargès, Miguel, additional, Neilson, Hilding R., additional, Majoinen, Olli, additional, Pedretti, Ettore, additional, Ridgway, Stephen T., additional, Roettenbacher, Rachael M., additional, Scott, Nicholas J., additional, Sturmann, Judit, additional, Sturmann, Laszlo, additional, Thureau, Nathalie, additional, Vargas, Norman, additional, and ten Brummelaar, Theo A., additional

Published

2021

23. « L’énigme de Bételgeuse est probablement résolue »

Author

Montargès, Miguel, primary and Bailly, Sean, additional

Published

2021

24. ATOMIUM: The astounding complexity of the near circumstellar environment of the M-type AGB star R Hydrae

Author

Homan, Ward, primary, Pimpanuwat, Bannawit, additional, Herpin, Fabrice, additional, Danilovich, Taissa, additional, McDonald, Iain, additional, Wallström, Sofia H. J., additional, Richards, Anita M. S., additional, Baudry, Alain, additional, Sahai, Raghvendra, additional, Millar, Tom J., additional, de Koter, Alex, additional, Gottlieb, C. A., additional, Kervella, Pierre, additional, Montargès, Miguel, additional, Van de Sande, Marie, additional, Decin, Leen, additional, Zijlstra, Albert, additional, Etoka, Sandra, additional, Jeste, Manali, additional, Müller, Holger S. P., additional, Maes, Silke, additional, Malfait, Jolien, additional, Menten, Karl, additional, Plane, John, additional, Lee, Kelvin, additional, Waters, Rens, additional, Wong, Ka Tat, additional, Lagadec, Eric, additional, Gobrecht, David, additional, Yates, Jeremy, additional, Price, Daniel, additional, Cannon, Emily, additional, Bolte, Jan, additional, De Ceuster, Frederik, additional, Nuth, Joe, additional, Philip Sindel, Jan, additional, Kee, Dylan, additional, Gray, Malcolm D., additional, and El Mellah, Ileyk, additional

Published

2021

25. Atmosphere of Betelgeuse before and during the Great Dimming event revealed by tomography

Author

Kravchenko, Kateryna, Jorissen, Alain, Van Eck, Sophie, Merle, Thibault, Chiavassa, Andréa, Paladini, Claudia, Freytag, Bernd, Plez, Bertrand, Montargès, Miguel, Van Winckel, Hans, Kravchenko, Kateryna, Jorissen, Alain, Van Eck, Sophie, Merle, Thibault, Chiavassa, Andréa, Paladini, Claudia, Freytag, Bernd, Plez, Bertrand, Montargès, Miguel, and Van Winckel, Hans

Abstract

info:eu-repo/semantics/published

Published

2021

26. I. First detection of a new companion and its effect on the inner wind

Author

Homan, Ward, Montargès, Miguel, Pimpanuwat, Bannawit, Richards, Anita, Wallström, Sofia, Kervella, Pierre, Decin, Leen, Zijlstra, Albert, Danilovich, Taissa, De Koter, Alex, Menten, Karl, Sahai, Raghvendra, Plane, John, Lee, Kelvin, Waters, Rens, Baudry, Alain, Tat Wong, Ka, Millar, Tom, Van de Sande, Marie, Lagadec, Eric, Gobrecht, David, Yates, Jeremy, Price, Daniel, Cannon, Emily, Bolte, Jan, De Ceuster, Frederik, Herpin, Fabrice, Nuth, Joe, Philip Sindel, Jan, Kee, Dylan, Grey, Malcolm, Etoka, Sandra, Jeste, Manali, Gottlieb, Carl, Gottlieb, Elaine, McDonald, Iain, El Mellah, Ileyk, Müller, Holger, Laboratoire d'études spatiales et d'instrumentation en astrophysique (LESIA (UMR_8109)), Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Laboratoire d'Astrophysique de Bordeaux [Pessac] (LAB), Université de Bordeaux (UB)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), FEMIS 2021, and Université de Bordeaux (UB)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université de Bordeaux (UB)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2020

27. ATOMIUM: A high-resolution view on the highly asymmetric wind of the AGB starπ1Gruis

Author

Homan, Ward, primary, Montargès, Miguel, additional, Pimpanuwat, Bannawit, additional, Richards, Anita M. S., additional, Wallström, Sofia H. J., additional, Kervella, Pierre, additional, Decin, Leen, additional, Zijlstra, Albert, additional, Danilovich, Taissa, additional, de Koter, Alex, additional, Menten, Karl, additional, Sahai, Raghvendra, additional, Plane, John, additional, Lee, Kelvin, additional, Waters, Rens, additional, Baudry, Alain, additional, Tat Wong, Ka, additional, Millar, Tom J., additional, Van de Sande, Marie, additional, Lagadec, Eric, additional, Gobrecht, David, additional, Yates, Jeremy, additional, Price, Daniel, additional, Cannon, Emily, additional, Bolte, Jan, additional, De Ceuster, Frederik, additional, Herpin, Fabrice, additional, Nuth, Joe, additional, Philip Sindel, Jan, additional, Kee, Dylan, additional, Grey, Malcolm D., additional, Etoka, Sandra, additional, Jeste, Manali, additional, Gottlieb, Carl A., additional, Gottlieb, Elaine, additional, McDonald, Iain, additional, El Mellah, Ileyk, additional, and Müller, Holger S. P., additional

Published

2020

28. A detailed view on the circumstellar environment of the M-type AGB star EP Aquarii

Author

Homan, Ward, primary, Cannon, Emily, additional, Montargès, Miguel, additional, Richards, Anita M. S., additional, Millar, Tom J., additional, and Decin, Leen, additional

Published

2020

29. Betelgeuse scope: single-mode-fibers-assisted optical interferometer design for dedicated stellar activity monitoring

Author

Anugu, Narsireddy, primary, Morzinski, Katie M., additional, Eisner, Josh, additional, Douglas, Ewan, additional, Marrone, Dan, additional, Ertel, Steve, additional, Haffert, Sebastiaan, additional, Montoya, Oscar, additional, Stone, Jordan, additional, Kraus, Stefan, additional, Monnier, John D., additional, Le Bouquin, Jean-Baptiste, additional, Berger, Jean-Philippe, additional, Woillez, Julien, additional, and Montargès, Miguel, additional

Published

2020

30. Spatially Resolved Ultraviolet Spectroscopy of the Great Dimming of Betelgeuse

Author

Dupree, Andrea K., primary, Strassmeier, Klaus G., additional, Matthews, Lynn D., additional, Uitenbroek, Han, additional, Calderwood, Thomas, additional, Granzer, Thomas, additional, Guinan, Edward F., additional, Leike, Reimar, additional, Montargès, Miguel, additional, Richards, Anita M. S., additional, Wasatonic, Richard, additional, and Weber, Michael, additional

Published

2020

31. VLT/PIONIER imaging of red supergiant stars

Author

Montargès, Miguel

Subjects

Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

PIONIER (Precision Integrated-Optics Near-infrared Imaging ExpeRiment) was the first 4-telescope instrument installed at the Very Large Telescope Interferometer (VLTI) in 2010. Benefiting from the multiple interferometric configurations available at the Cerro Paranal observatory, it can efficiently image stellar surfaces. With their large linear sizes, nearby red supergiant stars are among the most interesting targets for such instrument. Near infrared interferometry allows to study their surface in order to get a better understanding of their mass loss, mostly by constraining the characteristics of their photospheric features. I will review recent results obtain with VLTI/PIONIER on red supergiant stars, and emphasize the different techniques used to analyze these observations.

Published

2018

32. The close circumstellar environment of Betelgeuse

Author

Kervella, Pierre, Decin, Leen, Richards, Anita M. S., Harper, Graham M., McDonald, Iain, O’Gorman, Eamon, Montargès, Miguel, Homan, Ward, and Ohnaka, Keiichi

Published

2018

33. The Nearby Evolved Star L₂ Puppis as a Portrait of the Future Solar System

Author

Kervella, Pierre, Montargès, Miguel, Richards, Anita M. S., Homan, Ward, Decin, Leen, Lagadec, Eric, Ridgway, Stephen T., Perrin, Guy, McDonald, Ian, and Ohnaka, Keiichi

Abstract

The impact of the dramatic terminal phases of the lives of Sun-like stars on their orbiting planets is currently uncertain. Observations with NAOS CONICA and SPHERE/ZIMPOL in 2014–2015 have revealed that the nearby red giant star L₂ Puppis is surrounded by an almost edge-on disc of dust and gas. We have observed several remarkable features in L₂ Pup: plumes, spirals, and a secondary source (L₂ Pup B) which is embedded in the disc at a projected separation of 2 au. ALMA observations have allowed us to measure a mass of 0.659 ± 0.043 M⊙ for the central star. This indicates that L₂ Pup is a close analogue of the future Sun at an age of 10 Gyr. We also estimate the mass of L₂ Pup B to be 12 ± 16 MJup, implying that it is likely a planet or a brown dwarf. L₂ Pup therefore offers us a remarkable preview of the distant future of our Solar System.

Published

2017

34. Betelgeuse scope: single-mode-fibers-assisted optical interferometer design for dedicated stellar activity monitoring

Author

North Morris, Michael B., Creath, Katherine, Porras-Aguilar, Rosario, Anugu, Narsireddy, Morzinski, Katie M., Eisner, Josh, Douglas, Ewan, Marrone, Dan, Ertel, Steve, Haffert, Sebastiaan, Montoya, Oscar, Stone, Jordan, Kraus, Stefan, Monnier, John, Lebouquin, Jean-Baptiste, Berger, Jean-Philippe, Woillez, Julien, and Montargès, Miguel

Published

2020

35. Perte de masse des étoiles massives évoluées : l’environnement circumstellaire à haute résolution angulaire

Author

Montargès, Miguel, Laboratoire d'études spatiales et d'instrumentation en astrophysique (LESIA), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), UPMC, Pierre Kervella, and Guy Perrin

Subjects

proche infrarouge, evolved stars, interférométrie, optique adaptative, [SDU.ASTR.SR]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Solar and Stellar Astrophysics [astro-ph.SR], near infrared, haute résolution angulaire, supergéantes rouges, étoiles évoluées, interferometry, red supergiants, high angular resolution, adaptive optics

Abstract

Mass loss of evolved stars is still largely mysterious, despite its importance as the main evolution engine for the chemical composition of the interstellar medium. For red supergiants (RSG), the triggering of the outflow and the mechanism of dust condensation remain unknown. Concerning red giant stars, we still do not know how their mass loss is able to form a bipolar planetary nebula.During my PhD thesis, I observed evolved stars with high angular resolution techniques. They allowed us to study the surface and the close environment of these stars, from where mass loss originates. With near-infrared interferometric observations, I characterized the water vapor and carbon monoxide envelope of the nearby RSG Betelgeuse. I also monitored a hot spot on its surface and analyzed the structure of its convection, as well as that of Antares (another very nearby supergiant) thanks to radiative hydrodynamical simulations. Diffraction-limited imaging techniques (near-infrared adaptive optics, ultraviolet space telescope) allowed me to observe the evolution of inhomogeneities in the circumstellar envelope of Betelgeuse and to discover a circumstellar disk around L2 Puppis, an asymptotic giant branch star.These multi-scale and multi-wavelength observations obtained at several epochs allowed us to monitor the evolution of the structures and to derive information on the dynamics of the stellar environment. With a wider stellar sample expected in the next few years, this observing program will allow a better understanding of the mass loss of evolved stars.; Les mécanismes physiques de la perte de masse des étoiles évoluées sont encore largement inconnus. Ce processus essentiel est pourtant le moteur principal de l'évolution chimique du milieu interstellaire. Pour les supergéantes rouges (SGR), le déclenchement de l'éjection de la matière et les mécanismes de condensation de la poussière demeurent mal compris. La façon dont les géantes rouges parviennent à former des nébuleuses planétaires non-sphériques est aussi inconnue.Au cours de ma thèse j'ai étudié des étoiles évoluées grâce à des techniques de haute résolution angulaire permettant de détailler leur surface et leur environnement proche où se trouve l'origine de la perte de masse. À partir d'observations interférométriques en infrarouge (IR), j'ai caractérisé l'enveloppe de vapeur d'eau et de monoxyde de carbone de la SGR Bételgeuse. J'ai également suivi l'évolution d'un point chaud à sa surface et analysé la structure de sa convection ainsi que celle d'Antarès (une autre SGR très proche) grâce à des simulations hydrodynamiques radiatives. L'imagerie à la limite de diffraction (optique adaptative en IR, télescope spatial en ultraviolet) m'a permis d'étudier l'évolution des inhomogénéités de l'enveloppe circumstellaire de Bételgeuse et découvrir un disque circumstellaire autour de L2 Puppis, une étoile de la branche asymptotique des géantes.Ces observations multi-longueurs d'onde, répétées à plusieurs époques, m'ont permis d'initier un suivi temporel et d'apporter des informations sur la dynamique en jeu. Renouvelé sur un plus grand échantillon d'étoiles dans les années à venir, ce programme permettra de mieux appréhender la perte de masse des étoiles évoluées.

Published

2014

36. The Nearby Evolved Star L₂ Puppis as a Portrait of the Future Solar System

Author

Kervella, Pierre, Montargès, Miguel, Richards, Anita M. S., Homan, Ward, Decin, Leen, Lagadec, Eric, Ridgway, Stephen T., Perrin, Guy, McDonald, Ian, and Ohnaka, Keiichi

Subjects

13. Climate action

Abstract

The impact of the dramatic terminal phases of the lives of Sun-like stars on their orbiting planets is currently uncertain. Observations with NAOS CONICA and SPHERE/ZIMPOL in 2014–2015 have revealed that the nearby red giant star L₂ Puppis is surrounded by an almost edge-on disc of dust and gas. We have observed several remarkable features in L₂ Pup: plumes, spirals, and a secondary source (L₂ Pup B) which is embedded in the disc at a projected separation of 2 au. ALMA observations have allowed us to measure a mass of 0.659 ± 0.043 M⊙ for the central star. This indicates that L₂ Pup is a close analogue of the future Sun at an age of 10 Gyr. We also estimate the mass of L₂ Pup B to be 12 ± 16 MJup, implying that it is likely a planet or a brown dwarf. L₂ Pup therefore offers us a remarkable preview of the distant future of our Solar System., Published in The Messenger vol. 167, pp. 20-25, March 2017.

37. ATOMIUM: The astounding complexity of the near circumstellar environment of the M-type AGB star R Hydrae

Author

Homan, Ward, Pimpanuwat, Bannawit, Herpin, Fabrice, Danilovich, Taissa, McDonald, Iain, Wallström, Sofia H. J., Richards, Anita M. S., Baudry, Alain, Sahai, Raghvendra, Millar, Tom J., de Koter, Alex, Gottlieb, C. A., Kervella, Pierre, Montargès, Miguel, Van de Sande, Marie, Decin, Leen, Zijlstra, Albert, Etoka, Sandra, Jeste, Manali, Müller, Holger S. P., Maes, Silke, Malfait, Jolien, Menten, Karl, Plane, John, Lee, Kelvin, Waters, Rens, Wong, Ka Tat, Lagadec, Eric, Gobrecht, David, Yates, Jeremy, Price, Daniel, Cannon, Emily, Bolte, Jan, De Ceuster, Frederik, Nuth, Joe, Philip Sindel, Jan, Kee, Dylan, Gray, Malcolm D., and El Mellah, Ileyk

38. Constraining the properties of red supergiants stars with 3D MHD models

Author

Meyer, Dominique, M.-A., Mignone, A., Petrov, M., Scherer, K., Velazquez, P. F., Boumis, P., and Montargès, Miguel

Subjects

Stars: evolution, Astrophysics::High Energy Astrophysical Phenomena, Stars: individual: IRC-10414, Astrophysics::Solar and Stellar Astrophysics, Stars: mass-loss, supergiants, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Stars: individual: Betelgeuse, Astrophysics::Galaxy Astrophysics

Abstract

IRC-10414 is the twince star of Betelgeuse, as (i) they are both evolved massive stars in the cool red supergiant phase, (ii) experience high proper motion into a hot local interstellar medium (ISM), which (iii) produce the formation of a stellar wind bow shock nebula. We present 3D MHD numerical simulations of the astrosphere of the runaway red supergiant IRC −10414, which smooth appearance of its circumstellar bow shock might caused by the ionization of its wind by external sources of radiation. We investigate therein the additional effects of the ISM magnetization and explore how the inclination angle of an ordered background magnetic field with respect to the direction of motion of the red supergiant affects the development of their surroundings. Although our numerical simulations of the bow shock generated by IRC −10414 (the first-ever RSG with an optically detected bow shock) qualitatively reproduce the overall shape and surface brightness of the observed bow shock, they reveal that his internal structure is deeply affected by the direction of the ISM magnetic field, while the stellar magnetic field plays very little role in its shaping. Radiative transfer calculations at optical Ha and NII emission lines also show that the bow shock emission comes mainly from the shocked stellar wind. This naturally explains the enhanced nitrogen abundance in the line-emitting material, derived from the spectroscopy of the astrosphere of IRC-10414., {"references":["Refereed publication: Meyer et al. 2021, https://doi.org/10.1093/mnras/stab2026"]}

Published

2021

39. Mass loss of evolved massive stars: the circumstellar environment at high angular resolution

Author

Montarges, Miguel, Laboratoire d'études spatiales et d'instrumentation en astrophysique (LESIA), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), UPMC, Pierre Kervella, Guy Perrin, Université Pierre et Marie Curie - Paris VI, STAR, ABES, and Montargès, Miguel

Subjects

proche infrarouge, [SDU.ASTR.SR]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Solar and Stellar Astrophysics [astro-ph.SR], near infrared, haute résolution angulaire, étoiles évoluées, interferometry, red supergiants, adaptive optics, evolved stars, interférométrie, optique adaptative, [SDU.ASTR.SR] Sciences of the Universe [physics]/Astrophysics [astro-ph]/Solar and Stellar Astrophysics [astro-ph.SR], supergéantes rouges, [PHYS.ASTR] Physics [physics]/Astrophysics [astro-ph], [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], high angular resolution

Abstract

Mass loss of evolved stars is still largely mysterious, despite its importance as the main evolution engine for the chemical composition of the interstellar medium. For red supergiants (RSG), the triggering of the outflow and the mechanism of dust condensation remain unknown. Concerning red giant stars, we still do not know how their mass loss is able to form a bipolar planetary nebula. During my PhD thesis, I observed evolved stars with high angular resolution techniques. They allowed us to study the surface and the close environment of these stars, from where mass loss originates. With near-Infrared interferometric observations, I characterized the water vapor and carbon monoxide envelope of the nearby RSG Betelgeuse. I also monitored a hot spot on its surface and analyzed the structure of its convection, as well as that of Antares (another very nearby supergiant) thanks to radiative hydrodynamical simulations. Diffraction-Limited imaging techniques (near-Infrared adaptive optics, ultraviolet space telescope) allowed me to observe the evolution of inhomogeneities in the circumstellar envelope of Betelgeuse and to discover a circumstellar disk around L2 Puppis, an asymptotic giant branch star. These multi-Scale and multi-Wavelength observations obtained at several epochs allowed us to monitor the evolution of the structures and to derive information on the dynamics of the stellar environment. With a wider stellar sample expected in the next few years, this observing program will allow a better understanding of the mass loss of evolved stars., Les mécanismes physiques de la perte de masse des étoiles évoluées sont encore largement inconnus. Ce processus essentiel est pourtant le moteur principal de l'évolution chimique du milieu interstellaire. Pour les supergéantes rouges (SGR), le déclenchement de l'éjection de la matière et les mécanismes de condensation de la poussière demeurent mal compris. La façon dont les géantes rouges parviennent à former des nébuleuses planétaires non-Sphériques est aussi inconnue. Au cours de ma thèse j'ai étudié des étoiles évoluées grâce à des techniques de haute résolution angulaire permettant de détailler leur surface et leur environnement proche où se trouve l'origine de la perte de masse. À partir d'observations interférométriques en infrarouge (IR), j'ai caractérisé l'enveloppe de vapeur d'eau et de monoxyde de carbone de la SGR Bételgeuse. J'ai également suivi l'évolution d'un point chaud à sa surface et analysé la structure de sa convection ainsi que celle d'Antarès (une autre SGR très proche) grâce à des simulations hydrodynamiques radiatives. L'imagerie à la limite de diffraction (optique adaptative en IR, télescope spatial en ultraviolet) m'a permis d'étudier l'évolution des inhomogénéités de l'enveloppe circumstellaire de Bételgeuse et découvrir un disque circumstellaire autour de L2 Puppis, une étoile de la branche asymptotique des géantes. Ces observations multi-Longueurs d'onde, répétées à plusieurs époques, m'ont permis d'initier un suivi temporel et d'apporter des informations sur la dynamique en jeu. Renouvelé sur un plus grand échantillon d'étoiles dans les années à venir, ce programme permettra de mieux appréhender la perte de masse des étoiles évoluées.

Published

2014