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Dive into the research topics where Pablo Riviere-Marichalar is active.

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Featured researches published by Pablo Riviere-Marichalar.


The Astrophysical Journal | 2011

YSOVAR: THE FIRST SENSITIVE, WIDE-AREA, MID-INFRARED PHOTOMETRIC MONITORING OF THE ORION NEBULA CLUSTER

M. Morales-Calderon; John R. Stauffer; Lynne A. Hillenbrand; Robert Allen Gutermuth; Inseok Song; Luisa Marie Rebull; Peter Plavchan; John M. Carpenter; Barbara A. Whitney; Kevin R. Covey; C. Alves de Oliveira; E. M. Winston; Mark J. McCaughrean; J. Bouvier; S. Guieu; Frederick J. Vrba; J. Holtzman; Franck Marchis; Joseph L. Hora; L. H. Wasserman; Susan Terebey; Thomas S. Megeath; E. F. Guinan; Jan Forbrich; N. Huélamo; Pablo Riviere-Marichalar; D. Barrado; Karl R. Stapelfeldt; Jesús Hernández; Lori E. Allen

We present initial results from time-series imaging at infrared wavelengths of 0.9 deg^2 in the Orion Nebula Cluster (ONC). During Fall 2009 we obtained 81 epochs of Spitzer 3.6 and 4.5 μm data over 40 consecutive days. We extracted light curves with ~3% photometric accuracy for ~2000 ONC members ranging from several solar masses down to well below the hydrogen-burning mass limit. For many of the stars, we also have time-series photometry obtained at optical (I_c) and/or near-infrared (JK_s ) wavelengths. Our data set can be mined to determine stellar rotation periods, identify new pre-main-sequence eclipsing binaries, search for new substellar Orion members, and help better determine the frequency of circumstellar disks as a function of stellar mass in the ONC. Our primary focus is the unique ability of 3.6 and 4.5 μm variability information to improve our understanding of inner disk processes and structure in the Class I and II young stellar objects (YSOs). In this paper, we provide a brief overview of the YSOVAR Orion data obtained in Fall 2009 and highlight our light curves for AA-Tau analogs—YSOs with narrow dips in flux, most probably due to disk density structures passing through our line of sight. Detailed follow-up observations are needed in order to better quantify the nature of the obscuring bodies and what this implies for the structure of the inner disks of YSOs.


Astronomy and Astrophysics | 2012

An icy Kuiper belt around the young solar-type star HD 181327

J. Lebreton; J.-C. Augereau; Wing-Fai Thi; Aki Roberge; J. Donaldson; Glenn Schneider; Sarah T. Maddison; Francois Menard; Pablo Riviere-Marichalar; Geoffrey S. Mathews; I. Kamp; C. Pinte; W. R. F. Dent; D. Barrado; Gaspard Duchene; Jean-François Gonzalez; C. A. Grady; G. Meeus; E. Pantin; Jonathan P. Williams; Peter Woitke

Context. HD 181327 is a young main sequence F5/F6 V star belonging to the beta Pictoris moving group (age similar to 12 Myr). It harbors an optically thin belt of circumstellar material at radius similar to 90 AU, presumed to result from collisions in a population of unseen planetesimals. Aims. We aim to study the dust properties in the belt in details, and to constrain the gas-to-dust ratio. Methods. We obtained far-infrared photometric observations of HD 181327 with the PACS instrument onboard the Herschel Space Observatory(star), complemented by new 3.2 mm observations carried with the ATCA(star star) array. The geometry of the belt is constrained with newly reduced HST/NICMOS scattered light images that allow the degeneracy between the disk geometry and the dust properties to be broken. We then use the radiative transfer code GRATER to compute a large grid of models, and we identify the grain models that best reproduce the spectral energy distribution (SED) through a Bayesian analysis. We attempt to detect the oxygen and ionized carbon fine-structure lines with Herschel/PACS spectroscopy, providing observables to our photochemical code ProDiMo. Results. The HST observations confirm that the dust is confined in a narrow belt. The continuum is detected with Herschel/PACS completing nicely the SED in the far-infrared. The disk is marginally resolved with both PACS and ATCA. A medium integration of the gas spectral lines only provides upper limits on the [OI] and [CII] line fluxes. We show that the HD 181327 dust disk consists of micron-sized grains of porous amorphous silicates and carbonaceous material surrounded by an important layer of ice, for a total dust mass of similar to 0.05 M-circle plus. (in grains up to 1 mm). We discuss evidences that the grains consists of fluffy aggregates. The upper limits on the gas atomic lines do not provide unambiguous constraints: only if the PAH abundance is high, the gas mass must be lower than similar to 17 M-circle plus. Conclusions. Despite the weak constraints on the gas disk, the age of HD 181327 and the properties of the dust disk suggest that it has passed the stage of gaseous planets formation. The dust reveals a population of icy planetesimals, similar to the primitive Edgeworth-Kuiper belt, that may be a source for the future delivery of water and volatiles onto forming terrestrial planets.


Publications of the Astronomical Society of the Pacific | 2013

GASPS—A Herschel survey of gas and dust in protoplanetary disks: summary and initial statistics

W. R. F. Dent; Wing-Fai Thi; I. Kamp; Jonathan P. Williams; Francois Menard; S. J. Andrews; D. R. Ardila; G. Aresu; J.-C. Augereau; D. Barrado y Navascués; Sean David Brittain; A. Carmona; David R. Ciardi; W. C. Danchi; Jessica Donaldson; G. Duchene; C. Eiroa; D. Fedele; C. A. Grady; I. de Gregorio-Molsalvo; Christian D. Howard; N. Huélamo; Alexander V. Krivov; J. Lebreton; R. Liseau; C. Martin-Zaidi; Geoffrey S. Mathews; G. Meeus; I. Mendigutia; B. Montesinos

We describe a large-scale far-infrared line and continuum survey of protoplanetary disk through to young debris disk systems carried out using the ACS instrument on the Herschel Space Observatory. This Open Time Key program, known as GASPS (Gas Survey of Protoplanetary Systems), targeted similar to 250 young stars in narrow wavelength regions covering the [OI] fine structure line at 63 mu m the brightest far-infrared line in such objects. A subset of the brightest targets were also surveyed in [OI]145 mu m, [CII] at 157 mu m, as well as several transitions of H2O and high-excitation CO lines at selected wavelengths between 78 and 180 mu m. Additionally, GASPS included continuum photometry at 70, 100 and 160 mu m, around the peak of the dust emission. The targets were SED Class II-III T Tauri stars and debris disks from seven nearby young associations, along with a comparable sample of isolated Herbig AeBe stars. The aim was to study the global gas and dust content in a wide sample of circumstellar disks, combining the results with models in a systematic way. In this overview paper we review the scientific aims, target selection and observing strategy of the program. We summarise some of the initial results, showing line identifications, listing the detections, and giving a first statistical study of line detectability. The [OI] line at 63 mu m was the brightest line seen in almost all objects, by a factor of similar to 10. Overall [OI]63 mu m detection rates were 49%, with 100% of HAeBe stars and 43% of T Tauri stars detected. A comparison with published disk dust masses (derived mainly from sub-mm continuum, assuming standard values of the mm mass opacity) shows a dust mass threshold for [OI] 63 mu m detection of similar to 10(-5) M-circle dot. Normalising to a distance of 140 pc, 84% of objects with dust masses >= 10(-5) M-circle dot can be detected in this line in the present survey; 32% of those of mass 10(-6)-10(-5) M-circle dot, and only a very small number of unusual objects with lower masses can be detected. This is consistent with models with a moderate UV excess and disk flaring. For a given disk mass, [OI] detectability is lower for M stars compared with earlier spectral types. Both the continuum and line emission was, in most systems, spatially and spectrally unresolved and centred on the star, suggesting that emission in most cases was from the disk. Approximately 10 objects showed resolved emission, most likely from outflows. In the GASPS sample, [OI] detection rates in T Tauri associations in the 0.3-4 Myr age range were similar to 50%. For each association in the 5-20 Myr age range, similar to 2 stars remain detectable in [OI]63 mu m, and no systems were detected in associations with age >20 Myr. Comparing with the total number of young stars in each association, and assuming a ISM-like gas/dust ratio, this indicates that similar to 18% of stars retain a gas-rich disk of total mass similar to 1 M-Jupiter for 1-4 Myr, 1-7% keep such disks for 5-10 Myr, but none are detected beyond 10-20 Myr. The brightest [OI] objects from GASPS were also observed in [OI]145 mu m, [CII]157 mu m and CO J = 18 - 17, with detection rates of 20-40%. Detection of the [CII] line was not correlated with disk mass, suggesting it arises more commonly from a compact remnant envelope.


Astronomy and Astrophysics | 2010

Herschel-PACS observation of the 10 Myr old T Tauri disk TW Hya : Constraining the disk gas mass

W. F. Thi; Geoffrey S. Mathews; Francois Menard; Peter Woitke; G. Meeus; Pablo Riviere-Marichalar; Christophe Pinte; Christian D. Howard; Aki Roberge; G. Sandell; Ilaria Pascucci; B. Riaz; C. A. Grady; W. R. F. Dent; Inga Kamp; Gaspard Duchene; J.-C. Augereau; E. Pantin; B. Vandenbussche; I. Tilling; Jonathan P. Williams; C. Eiroa; D. Barrado; J. M. Alacid; Sean M. Andrews; D. R. Ardila; G. Aresu; Sean David Brittain; David R. Ciardi; W. C. Danchi

Planets are formed in disks around young stars. With an age of similar to 10 Myr, TW Hya is one of the nearest T Tauri stars that is still surrounded by a relatively massive disk. In addition a large number of molecules has been found in the TW Hya disk, making TW Hya the perfect test case in a large survey of disks with Herschel-PACS to directly study their gaseous component. We aim to constrain the gas and dust mass of the circumstellar disk around TW Hya. We observed the fine-structure lines of [OI] and [CII] as part of the open-time large program GASPS. We complement this with continuum data and ground-based (12) CO 3-2 and (CO)-C-13 3-2 observations. We simultaneously model the continuum and the line fluxes with the 3D Monte-Carlo code MCFOST and the thermo-chemical code ProDiMo to derive the gas and dust masses. We detect the [OI] line at 63 mu m. The other lines that were observed, [OI] at 145 mu m and [CII] at 157 mu m, are not detected. No extended emission has been found. Preliminary modeling of the photometric and line data assuming [(CO)-C-12]/[(CO)-C-13] = 69 suggests a dust mass for grains with radius < 1 mm of similar to 1.9 x 10(-4) M-circle dot (total solid mass of 3 x 10(-3) M-circle dot) and a gas mass of (0.5-5) x 10(-3) M-circle dot. The gas-to-dust mass may be lower than the standard interstellar value of 100.


The Astrophysical Journal | 2013

Herschel/PACS Survey of Protoplanetary Disks in Taurus/Auriga—Observations of [O I] and [C II], and Far-infrared Continuum

Christian D. Howard; Goeran Sandell; William D. Vacca; Gaspard Duchene; Geoffrey S. Mathews; J.-C. Augereau; D. Barrado; William R. F. Dent; C. Eiroa; C. A. Grady; Inga Kamp; G. Meeus; Francois Menard; Christophe Pinte; L. Podio; Pablo Riviere-Marichalar; Aki Roberge; Wing-Fai Thi; S. Vicente; Jonathan P. Williams

TheHerschelSpaceObservatory was used to observe ∼120 pre-main-sequence stars in Taurus as part of the GASPS Open Time Key project. Photodetector Array Camera and Spectrometer was used to measure the continuum as well as several gas tracers such as [Oi ]6 3μm, [Oi] 145 μm, [Cii] 158 μm, OH, H2O, and CO. The strongest line seen is [Oi ]a t 63μm. We find a clear correlation between the strength of the [Oi ]6 3μm line and the 63 μm continuum for disk sources. In outflow sources, the line emission can be up to 20 times stronger than in disk sources, suggesting that the line emission is dominated by the outflow. The tight correlation seen for disk sources suggests that the emission arises from the inner disk (<50 AU) and lower surface layers of the disk where the gas and dust are coupled. The [Oi ]6 3μm is fainter in transitional stars than in normal Class II disks. Simple spectral energy distribution models indicate that the dust responsible for the continuum emission is colder in these disks, leading to weaker line emission. [Cii] 158 μm emission is only detected in strong outflow sources. The observed line ratios of [Oi ]6 3μ mt o [Oi] 145 μm are in the regime where we are insensitive to the gas-to-dust ratio, neither can we discriminate between shock or photodissociation region emission. We detect no Class III object in [Oi ]6 3μm and only three in continuum, at least one of which is a candidate debris disk.


Astronomy and Astrophysics | 2012

Gas modelling in the disc of HD 163296

I. Tilling; Peter Woitke; G. Meeus; A. Mora; B. Montesinos; Pablo Riviere-Marichalar; C. Eiroa; Wing-Fai Thi; Andrea Isella; Aki Roberge; C. Martin-Zaidi; Inga Kamp; C. Pinte; G. Sandell; William D. Vacca; Francois Menard; I. Mendigutia; Gaspard Duchene; W. R. F. Dent; G. Aresu; R. Meijerink; M. Spaans

We present detailed model fits to observations of the disc aro und the Herbig Ae star HD 163296. This well-studied object has an age of∼ 4 Myr, with evidence of a circumstellar disc extending out to∼ 540 AU. We use the radiation thermo-chemical disc code ProDiMo to model the gas and dust in the circumstellar disc of HD 163296, and attempt to determine the disc properties by fitting to observational line and continuum data. These include new Herschel/PACS observations obtained as part of the open-time key program GASPS (Gas in Protoplanetary Systems), consisting of a detection of the [Oi] 63µm line and upper limits for several other far infrared lines. We complement this with continuum data and ground-based observations of the 12 CO 3-2, 2-1 and 13 CO J=1-0 line transitions, as well as the H 2 S(1) transition. We explore the effects of stellar ultraviolet variability and dust settling on the line emission, and on th e derived disc properties. Our fitting e fforts lead to derived gas/dust ratios in the range 9-100, depending on the assumptions made. We note that the line fluxes are sensitive in general to the degree of dust settli ng in the disc, with an increase in line flux for settled models. This is most pronoun ced in lines which are formed in the warm gas in the inner disc, but the low excitation molecular lines are also affected. This has serious implications for attempts to derive the disc gas mass from line observations. We derive fractional PAH abundances between 0.007 and 0.04 relative to ISM levels. Using a stellar and UV excess input spectrum based on a detailed analysis of observations, we find that the all observations are consiste nt with the previously assumed disc geometry.


Astronomy and Astrophysics | 2012

Detection of warm water vapour in Taurus protoplanetary discs by Herschel

Pablo Riviere-Marichalar; Francois Menard; Wing-Fai Thi; Inga Kamp; B. Montesinos; G. Meeus; Peter Woitke; Christian D. Howard; G. Sandell; Linda Podio; W. R. F. Dent; I. Mendigutia; C. Pinte; G. J. White; D. Barrado

Line spectra of 68 Taurus T Tauri stars were obtained with the Herschel-PACS (Photodetector Array Camera and Spectrometer) instrument as part of the GASPS (GAS evolution in Protoplanetary Systems) survey of protoplanetary discs. A careful examination of the linescans centred on the [OI] 63.18 μm fine-structure line unveiled a line at 63.32 μm in some of these spectra. We identify this line with the 818 → 707 transition of ortho-water. It is detected confidently (i.e., >3σ) in eight sources, i.e., ∼24% of the sub-sample with gas-rich discs. Several statistical tests were used to search for correlations with other disc and stellar parameters such as line fluxes of [Oi] 6300 A and 63.18 μm; X-ray luminosity and continuum levels at 63 μm and 850 μm. Correlations are found between the water line fluxes and the [Oi] 63.18 μm line luminosity, the dust continuum, and possibly with the stellar X-ray luminosity. This is the first time that this line of warm water vapour has been detected in protoplanetary discs. We discuss its origins, in particular whether it comes from the inner disc and/or disc surface or from shocks in outflows and jets. Our analysis favours a disc origin, with the observed water vapour line produced within 2–3 AU from the central stars, where the gas temperature is of the order of 500–600 K.


Astronomy and Astrophysics | 2014

Gas and dust in the beta Pictoris moving group as seen by the Herschel Space Observatory

Pablo Riviere-Marichalar; D. Barrado; B. Montesinos; Gaspard Duchene; H. Bouy; C. Pinte; Francois Menard; Jessica Donaldson; C. Eiroa; Alexander V. Krivov; Inga Kamp; I. Mendigutía; W. R. F. Dent; J. Lillo-Box

Context. Debris discs are thought to be formed through the collisional grinding of planetesimals, and then can be considered as the outcome of planet formation. Understanding the properties of gas and dust in debris discs can help us comprehend the architecture of extrasolar planetary systems. Herschel Space Observatory far-infrared (IR) photometry and spectroscopy have provided a valuable dataset for the study of debris discs gas and dust composition. This paper is part of a series of papers devoted to the study of Herschel-PACS observations of young stellar associations. Aims. This work aims at studying the properties of discs in the beta Pictoris moving group (BPMG) through far-IR PACS observations of dust and gas. Methods. We obtained Herschel-PACS far-IR photometric observations at 70, 100, and 160 μm of 19 BPMG members, together with spectroscopic observations for four of them. These observations were centred at 63.18 μm and 157 μm, aiming to detect [OI] and [CII] emission. We incorporated the new far-IR observations in the SED of BPMG members and fitted modified blackbody models to better characterise the dust content. Results. We have detected far-IR excess emission towards nine BPMG members, including the first detection of an IR excess towards HD 29391.The star HD 172555, shows [OI] emission, while HD 181296 shows [CII] emission, expanding the short list of debris discs with a gas detection. No debris disc in BPMG is detected in both [OI] and [CII]. The discs show dust temperatures in the range 55–264 K, with low dust masses (<6.6 × 10 −5 M⊕ to 0.2 M⊕) and radii from blackbody models in the range 3 to ∼82 AU. All the objects with a gas detection are early spectral type stars with a hot dust component.


Astronomy and Astrophysics | 2010

Gas in the protoplanetary disc of HD 169142: Herschel's view

G. Meeus; Christophe Pinte; Peter Woitke; B. Montesinos; I. Mendigutia; Pablo Riviere-Marichalar; C. Eiroa; Geoffrey S. Mathews; B. Vandenbussche; Christian D. Howard; Aki Roberge; G. Sandell; Gaspard Duchene; Francois Menard; C. A. Grady; William R. F. Dent; Inga Kamp; J.-C. Augereau; W. F. Thi; I. Tilling; J. M. Alacid; Sean M. Andrews; D. R. Ardila; G. Aresu; D. Barrado; Sean David Brittain; David R. Ciardi; W. C. Danchi; D. Fedele; I. de Gregorio-Monsalvo

In an effort to simultaneously study the gas and dust components of the disc surrounding the young Herbig Ae star HD 169142, we present far-IR observations obtained with the PACS instrument onboard the Herschel Space Observatory. This work is part of the open time key program GASPS, which is aimed at studying the evolution of protoplanetary discs. To constrain the gas properties in the outer disc, we observed the star at several key gas-lines, including [OI] 63.2 and 145.5 mu m, [CII] 157.7 mu m, CO 72.8 and 90.2 mu m, and o-H2O 78.7 and 179.5 mu m. We only detect the [OI] 63.2 mu m line in our spectra, and derive upper limits for the other lines. We complement our data set with PACS photometry and (CO)-C-12/13 data obtained with the Submillimeter Array. Furthermore, we derive accurate stellar parameters from optical spectra and UV to mm photometry. We model the dust continuum with the 3D radiative transfer code MCFOST and use this model as an input to analyse the gas lines with the thermo-chemical code ProDIMo. Our dataset is consistent with a simple model in which the gas and dust are well-mixed in a disc with a continuous structure between 20 and 200 AU, but this is not a unique solution. Our modelling effort allows us to constrain the gas-to-dust mass ratio as well as the relative abundance of the PAHs in the disc by simultaneously fitting the lines of several species that originate in different regions. Our results are inconsistent with a gas-poor disc with a large UV excess; a gas mass of 5.0 +/- 2.0 x 10(-3) M-circle dot is still present in this disc, in agreement with earlier CO observations.


Astronomy and Astrophysics | 2013

Gas and dust in the TW Hydrae association as seen by the Herschel Space Observatory

Pablo Riviere-Marichalar; C. Pinte; D. Barrado; Wing-Fai Thi; C. Eiroa; Inga Kamp; B. Montesinos; J. Donaldson; J.-C. Augereau; N. Huélamo; Aki Roberge; D. R. Ardila; G. Sandell; Jonathan P. Williams; W. R. F. Dent; Francois Menard; J. Lillo-Box; Gaspard Duchene

Context. Circumstellar discs are the places where planets form, therefore knowledge of their evolution is crucial for our understanding of planet formation. The Herschel Space Observatory is providing valuable data for studying disc systems, thanks to its sensitivity and wavelength coverage. This paper is one of several devoted to analysing and modelling Herschel-PACS observations of various young stellar associations from the GASPS open time key programme. Aims. The aim of this paper is to elucidate the gas and dust properties of circumstellar discs in the ~10 Myr TW Hya association (TWA) using new far-infrared (IR) imaging and spectroscopy from Herschel-PACS. Methods. We obtained far-IR photometric data at 70, 100, and 160 μm of 14 TWA members; spectroscopic observations centred on the [OI] line at 63.18 μm were also obtained for 9 of the 14. The new photometry for each star was incorporated into its full spectral energy distribution. Results. We detected excess IR emission that is characteristic of circumstellar discs from five TWA members, and computed upper limits for another nine. Two TWA members (TWA 01 and TWA 04B) also show [OI] emission at 63.18 μm. Discs in the TWA association display a variety of properties, with a wide range of dust masses and inner radii, based on modified blackbody modelling. Both transitional and debris discs are found in the sample. Models for sources with a detected IR excess give dust masses in the range from ~0.15 M_⊕ to ~63 M_⊕

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H. Bouy

Spanish National Research Council

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Álvaro Ribas

Spanish National Research Council

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C. Eiroa

Autonomous University of Madrid

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G. Meeus

Autonomous University of Madrid

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Inga Kamp

Kapteyn Astronomical Institute

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Enrique Macías

Spanish National Research Council

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