Your search keyword '"Lucas Cieza"' showing total 14 results

1. Variability in SSTc2d J163134.1-240100, a brown dwarf with quasi-spherical mass loss

Author

Aleks Scholz, Koraljka Muzic, Victor Almendros-Abad, Antonella Natta, Dary Ruiz-Rodriguez, Lucas Cieza, and Cristina Rodriguez-Lopez

Subjects

Astronomy, QB1-991, Astrophysics, QB460-466

Abstract

We report on a search for variability in the young brown dwarf SST1624 ($\sim$M7 spectral type, $M\sim 0.05\,M_{\odot}$), previously found to feature an expanding gaseous shell and to undergo quasi-spherical mass loss. We find no variability on timescales of 1-6\,hours. Specifically, on these timescales, we rule out the presence of a period with amplitude $>1\%$. A photometric period in that range would have been evidence for either pulsation powered by Deuterium burning or rotation near breakup. However, we see a 3\% decrease in the K-band magnitude between two consecutive observing nights (a 10\,$\sigma$ result). There is also clear evidence for variations in the WISE lightcurves at 3.6 and 4.5$\,\mu m$ on timescales of days, with a tentative period of about 6\,d (with a plausible range between 3 and 7\,d). The best explanation for the variations over days is rotational modulation due to spots. These results disfavour centrifugal winds driven by fast rotation as mechanism for the mass loss, which, in turn, makes the alternative scenario -- a thermal pulse due to Deuterium burning -- more plausible.

Published

2024

2. ALMA Spectral Survey of an Eruptive Young Star, V883 Ori (ASSAY). I. What Triggered the Current Episode of Eruption?

Author

Jeong-Eun Lee, Chul-Hwan Kim, Seokho Lee, Seonjae Lee, Giseon Baek, Hyeong-Sik Yun, Yuri Aikawa, Doug Johnstone, Gregory J. Herczeg, and Lucas Cieza

Subjects

Star formation, Astrophysics, QB460-466

Abstract

An unbiased spectral survey of V883 Ori, an eruptive young star, was carried out with the Atacama Large Millimeter/submillimeter Array in Band 6. The detected line emission from various molecules reveals morphological/kinematical features in both the Keplerian disk and the infalling envelope. A direct infall signature, redshifted absorption against the continuum, has been detected in CO, HCO ^+ , HCN, HNC, and H _2 CO. HCO ^+ and SO show large armlike structures that probably connect the infalling envelope to the disk. HCN and H _2 CO reveal a distinct boundary between the inner and outer disks and tentative spiral structures connecting the outer disk to the inner disk. HNC shows a large central emission hole ( r ∼ 0.″3) due to its chemical conversion to HCN at high temperatures. HDO emission, a direct tracer of the water sublimation region, has been detected in the disk. Molecular emission from complex organic molecules is confined within the HDO emission boundary, and HCO ^+ has an emission hole in its distribution due to its destruction by water. Together, these features suggest that the current episode of eruption in V883 Ori may be triggered by the infall from the envelope to the outer disk, generating a spiral wave that propagates inward and greatly enhances the accretion onto the central star.

Published

2024

3. Spirals and Clumps in V960 Mon: Signs of Planet Formation via Gravitational Instability around an FU Ori Star?

Author

Philipp Weber, Sebastián Pérez, Alice Zurlo, James Miley, Antonio Hales, Lucas Cieza, David Principe, Miguel Cárcamo, Antonio Garufi, Ágnes Kóspál, Michihiro Takami, Joel Kastner, Zhaohuan Zhu, and Jonathan Williams

Subjects

Observational astronomy, Planet formation, FU Orionis stars, Gravitational instability, Astrophysics, QB460-466

Abstract

The formation of giant planets has traditionally been divided into two pathways: core accretion and gravitational instability. However, in recent years, gravitational instability has become less favored, primarily due to the scarcity of observations of fragmented protoplanetary disks around young stars and the low occurrence rate of massive planets on very wide orbits. In this study, we present a SPHERE/IRDIS polarized light observation of the young outbursting object V960 Mon. The image reveals a vast structure of intricately shaped scattered light with several spiral arms. This finding motivated a reanalysis of archival Atacama Large Millimeter/submillimeter Array 1.3 mm data acquired just two years after the onset of the outburst of V960 Mon. In these data, we discover several clumps of continuum emission aligned along a spiral arm that coincides with the scattered light structure. We interpret the localized emission as fragments formed from a spiral arm under gravitational collapse. Estimating the mass of solids within these clumps to be of several Earth masses, we suggest this observation to be the first evidence of gravitational instability occurring on planetary scales. This study discusses the significance of this finding for planet formation and its potential connection with the outbursting state of V960 Mon.

Published

2023

4. Deuterium-enriched water ties planet-forming disks to comets and protostars

Author

John J. Tobin, Merel L. R. van ’t Hoff, Margot Leemker, Ewine F. van Dishoeck, Teresa Paneque-Carreño, Kenji Furuya, Daniel Harsono, Magnus V. Persson, L. Ilsedore Cleeves, Patrick D. Sheehan, and Lucas Cieza

Subjects

Multidisciplinary

Published

2023

5. The SPHERE view of three interacting twin disc systems in polarized light

Author

Philipp Weber, Sebastián Pérez, Greta Guidi, Nicolás T Kurtovic, Alice Zurlo, Antonio Garufi, Paola Pinilla, Satoshi Mayama, Rob G van Holstein, Cornelis P Dullemond, Nicolás Cuello, David Principe, Lucas Cieza, Camilo González-Ruilova, and Julien Girard

Subjects

Earth and Planetary Astrophysics (astro-ph.EP), Astrophysics - Solar and Stellar Astrophysics, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), observational, Techniques: polarimetric, Protoplanetary discs, Binaries: visual [Methods], FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics - Astrophysics of Galaxies, Solar and Stellar Astrophysics (astro-ph.SR), Astrophysics - Earth and Planetary Astrophysics

Abstract

Dense stellar environments as hosts of ongoing star formation increase the probability of gravitational encounters among stellar systems during the early stages of evolution. Stellar interaction may occur through non-recurring, hyperbolic or parabolic passages (a so-called 'fly-by'), through secular binary evolution, or through binary capture. In all three scenarios, the strong gravitational perturbation is expected to manifest itself in the disc structures around the individual stars. Here, we present near-infrared polarised light observations that were taken with the SPHERE/IRDIS instrument of three known interacting twin-disc systems: AS 205, EM* SR 24, and FU Orionis. The scattered light exposes spirals likely caused by the gravitational interaction. On a larger scale, we observe connecting filaments between the stars. We analyse their very complex polarised intensity and put particular attention to the presence of multiple light sources in these systems. The local angle of linear polarisation indicates the source whose light dominates the scattering process from the bridging region between the two stars. Further, we show that the polarised intensity from scattering with multiple relevant light sources results from an incoherent summation of the individuals' contribution. This can produce nulls of polarised intensity in an image, as potentially observed in AS 205. We discuss the geometry and content of the systems by comparing the polarised light observations with other data at similar resolution, namely with ALMA continuum and gas emission. Collective observational data can constrain the systems' geometry and stellar trajectories, with the important potential to differentiate between dynamical scenarios of stellar interaction., 23 pages, 17 figures, accepted for publication in MNRAS

Published

2022

6. Observations of planet forming disks in multiple stellar systems

Author

Alice Zurlo, Raffaele Gratton, Sebastián Pérez, and Lucas Cieza

Subjects

Fluid Flow and Transfer Processes, Earth and Planetary Astrophysics (astro-ph.EP), Astrophysics - Solar and Stellar Astrophysics, General Physics and Astronomy, FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Solar and Stellar Astrophysics (astro-ph.SR), Astrophysics - Earth and Planetary Astrophysics

Abstract

The demographic of circumstellar disks, the birthplaces of planets, is diverse and rich in disks featuring rings, gaps, spirals, filaments, and arcs. Many studies revealing these disk structures have focused on objects around single stars and disks in isolation. The scenario is more complex if binarity or multiplicity is involved; most stars are part of multiple systems in crowded star-forming regions. How does the presence of one or more stellar companions affect the shape and size of the circumstellar disks? Here we review the landscape of results from optical, infrared, and (sub-) millimeter observations of the effects of multiplicity on protoplanetary disks, emphasizing the demographic studies of nearby molecular clouds and the high-resolution studies of multiple disk systems., Comment: Invited review accepted in EPJ+

Published

2023

7. No Clear, Direct Evidence for Multiple Protoplanets Orbiting LkCa 15: LkCa 15 bcd are Likely Inner Disk Signals

Author

Thayne Currie, Christian Marois, Lucas Cieza, Gijs D. Mulders, Kellen Lawson, Claudio Caceres, Dary Rodriguez-Ruiz, John Wisniewski, Olivier Guyon, Timothy D. Brandt, N. Jeremy Kasdin, Tyler D Groff, Julien Lozi, Jeffrey Chilcote, Klaus Hodapp, Nemanja Jovanovic, Frantz Martinache, Nour Skaf, Wladimir Lyra, Motohide Tamura, Ruben Asensio-Torres, Ruobing Dong, Carol Grady, Benjamin Gerard, Misato Fukagawa, Derek Hand, Masahiko Hayashi, Thomas Henning, Tomoyuki Kudo, Masayuki Kuzuhara, Jungmi Kwon, Michael W Mcelwain, and Taichi Uyama

Subjects

Astrophysics

Abstract

Two studies utilizing sparse aperture-masking (SAM) interferometry and Hα differential imaging have reported multiple Jovian companions around the young solar-mass star, LkCa 15 (LkCa 15 bcd): thefirst claimed direct detection of infant, newly formed planets (“protoplanets”). We present new near-infrared direct imaging/spectroscopy from the Subaru Coronagraphic Extreme Adaptive Optics (SCExAO) system coupled with Coronagraphic High Angular Resolution Imaging Spectrograph (CHARIS) integral field spectrograph and multi-epoch thermal infrared imaging from Keck/ NIRC2 of LkCa 15 at high Strehl ratios. These data provide the first direct imaging look at the same wavelengths and in the same locations where previous studies identified the LkCa 15 protoplanets,and thus offer the first decisive test of their existence.The data do not reveal these planets. Instead,we resolve extended emission tracing adust disk with a brightness and location comparable to that claimed for LkCa 15 bcd. Forward-models attributing this signal to orbiting planets are inconsistent with the combined SCExAO/CHARIS and Keck/NIRC2 data. An inner disk provides a more compelling explanation for the SAM detections and perhaps also the claimed Hα detection of LkCa 15 b. We conclude that there is currently no clear, direct evidence for multiple protoplanets orbiting LkCa 15, although the system likely contains at least one unseen Jovian companion. To identify Jovian companions around LkCa 15 from future observations, the inner disk should be detected and its effect modeled, removed, and shown to be distinguishable from planets. Protoplanet candidates identified from similar systems should likewise be clearly distinguished from disk emission through modeling.

Published

2019

8. Primer análisis de la cronología obtenida en el sitio Choya 68 (Depto. de Capayán, Provincia de Catamarca, Argentina)

Author

Jorge E. Carbonari, Gervasio Lucas Cieza, María F. Del Castillo, María Eugenia De Feo, Roberto Huarte, José Agustín Togo, Marta Inés Baldini, Alberto Rex González, and Aníbal Juan Figini

Subjects

Cultural Studies, Archeology, History, arqueología, aguada, GN1-890, intercomparison, Latin America. Spanish America, Charcoal, archaeology, Excavation, radiocarbono, Archaeology, F1201-3799, Geography, choya 68, visual_art, Anthropology, intercomparación, visual_art.visual_art_medium, radiocarbon, Aguada, Choya 68, CC1-960

Abstract

Choya 68 es un sitio ceremonial, con una estructura monticular y en sus adyacencias amplias superficies preparadas y estructuras de paredes de piedra cuadrangulares y rectangulares. En la excavación se recuperó abundante cerámica del tipo Aguada Portezuelo. En menor proporción Aguada pintado y Aguada negro grabado. Se dan a conocer las edades suministradas por tres laboratorios de C14, para estas estructuras, se efectúan observaciones respecto de la asociación entre las muestras y los eventos arqueológicos respectivos, y se analizan las probables causas de las diferencias interlaboratorios observadas. Se concluye estimando que la variable más importante de las dataciones C14 es la heterogeneidad cronológica de las muestras de carbón analizadas., Facultad de Ciencias Naturales y Museo

9. Long Baseline Observations of the HD 100546 Protoplanetary Disk with ALMA.

Author

Sebastián Pérez, Simon Casassus, Antonio Hales, Sebastián Marino, Anthony Cheetham, Alice Zurlo, Lucas Cieza, Ruobing Dong, Felipe Alarcón, Pablo Benítez-Llambay, Ed Fomalont, and Henning Avenhaus

Published

2020

10. Dust Unveils the Formation of a Mini-Neptune Planet in a Protoplanetary Ring.

Author

Sebastián Pérez, Simon Casassus, Clément Baruteau, Ruobing Dong, Antonio Hales, and Lucas Cieza

Published

2019

11. The Ophiuchus DIsk Survey Employing ALMA (ODISEA): Disk Dust Mass Distributions across Protostellar Evolutionary Classes.

Author

Jonathan P. Williams, Lucas Cieza, Antonio Hales, Megan Ansdell, Dary Ruiz-Rodriguez, Simon Casassus, Sebastian Perez, and Alice Zurlo

Published

2019

12. GPI Spectroscopy of the Mass, Age, and Metallicity Benchmark Brown Dwarf HD 4747 B.

Author

Justin R. Crepp, David A. Principe, Schuyler Wolff, Paige A. Giorla Godfrey, Emily L. Rice, Lucas Cieza, Laurent Pueyo, Eric B. Bechter, and Erica J. Gonzales

Subjects

BROWN dwarf stars, ATMOSPHERIC models, STELLAR atmospheres, ASTRONOMICAL polarimetry, PARAMETER estimation, EVOLUTIONARY models

Abstract

The physical properties of brown dwarf companions found to orbit nearby, solar-type stars can be benchmarked against independent measures of their mass, age, chemical composition, and other parameters, offering insights into the evolution of substellar objects. The TRENDS high-contrast imaging survey has recently discovered a (mass/age/metallicity) benchmark brown dwarf orbiting the nearby (d = 18.69 ± 0.19 pc), G8V/K0V star HD 4747. We have acquired follow-up spectroscopic measurements of HD 4747 B using the Gemini Planet Imager to study its spectral type, effective temperature, surface gravity, and cloud properties. Observations obtained in the H-band and K1-band recover the companion and reveal that it is near the L/T transition (T1 ± 2). Fitting atmospheric models to the companion spectrum, we find strong evidence for the presence of clouds. However, spectral models cannot satisfactorily fit the complete data set: while the shape of the spectrum can be well-matched in individual filters, a joint fit across the full passband results in discrepancies that are a consequence of the inherent color of the brown dwarf. We also find a 2σ tension in the companion mass, age, and surface gravity when comparing to evolutionary models. These results highlight the importance of using benchmark objects to study “secondary effects” such as metallicity, non-equilibrium chemistry, cloud parameters, electron conduction, non-adiabatic cooling, and other subtleties affecting emergent spectra. As a new L/T transition benchmark, HD 4747 B warrants further investigation into the modeling of cloud physics using higher resolution spectroscopy across a broader range of wavelengths, polarimetric observations, and continued Doppler radial velocity and astrometric monitoring. [ABSTRACT FROM AUTHOR]

Published

2018

13. MAPPING THE SHORES OF THE BROWN DWARF DESERT. IV. OPHIUCHUS.

Author

Anthony C. Cheetham, Adam L. Kraus, Michael J. Ireland, Lucas Cieza, Aaron C. Rizzuto, and Peter G. Tuthill

Subjects

BROWN dwarf stars, MATHEMATICAL mappings, STELLAR populations, STELLAR mass, PROTOPLANETARY disks

Abstract

We conduct a multiplicity survey of members of the ρ Ophiuchus cloud complex with high-resolution imaging to characterize the multiple-star population of this nearby star-forming region and investigate the relation between stellar multiplicity and star and planet formation. Our aperture masking survey reveals the presence of five new stellar companions beyond the reach of previous studies, but does not result in the detection of any new substellar companions. We find that 43 ± 6% of the 114 stars in our survey have stellar-mass companions between 1.3 and 780 AU, while % host brown dwarf companions in the same interval. By combining this information with knowledge of disk-hosting stars, we show that the presence of a close binary companion (separation <40 AU) significantly influences the lifetime of protoplanetary disks, a phenomenon previously seen in older star-forming regions. At the ∼1–2 Myr age of our Ophiuchus members ∼2/3 of close binary systems have lost their disks, compared to only ∼30% of single stars and wide binaries. This has a significant impact on the formation of giant planets, which are expected to require much longer than 1 Myr to form via core accretion and thus planets formed via this pathway should be rare in close binary systems. [ABSTRACT FROM AUTHOR]

Published

2015

14. A COMPACT CONCENTRATION OF LARGE GRAINS IN THE HD 142527 PROTOPLANETARY DUST TRAP.

Author

Simon Casassus, Chris M. Wright, Sebastian Marino, Sarah T. Maddison, Al Wootten, Pablo Roman, Sebastian Pérez, Paola Pinilla, Mark Wyatt, Victor Moral, Francois Ménard, Valentin Christiaens, Lucas Cieza, and Gerrit van der Plas

Subjects

INTERPLANETARY dust, PLANETESIMALS, SUBMILLIMETER astronomy, WAVELENGTHS, ORIGIN of planets

Abstract

A pathway to the formation of planetesimals, and eventually giant planets, may occur in concentrations of dust grains trapped in pressure maxima. Dramatic crescent-shaped dust concentrations have been seen in recent radio images at submillimeter wavelengths. These disk asymmetries could represent the initial phases of planet formation in the dust trap scenario, provided that grain sizes are spatially segregated. A testable prediction of azimuthal dust trapping is that progressively larger grains should be more sharply confined and should follow a distribution that is markedly different from the gas. However, gas tracers such as 12CO and the infrared emission from small grains are both very optically thick where the submillimeter continuum originates, so previous observations have been unable to test the trapping predictions or to identify compact concentrations of larger grains required for planet formation by core accretion. Here we report multifrequency observations of HD 142527, from 34 to 700 GHz, that reveal a compact concentration of grains approaching centimeter sizes, with a few Earth masses, embedded in a large-scale crescent of smaller, submillimeter-sized particles. The emission peaks at wavelengths shorter than ∼1 mm are optically thick and trace the temperature structure resulting from shadows cast by the inner regions. Given this temperature structure, we infer that the largest dust grains are concentrated in the 34 GHz clump. We conclude that dust trapping is efficient enough for grains observable at centimeter wavelengths to lead to compact concentrations. [ABSTRACT FROM AUTHOR]

Published

2015