Clément Baruteau


   CNRS researcher
   IRAP, University of Toulouse

Publications


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Refereed articles and book chapters

[72] The classical T Tauri star CI Tau observed with SPIRou: magnetospheric accretion and planetary formation
Donati, Finociety, Cristofari, Alencar, Moutou, Delfosse, Fouqué, Arnold, Baruteau and 8 co-authors
Accepted in MNRAS, in press (astro-ph)

[71] A far-ultraviolet-driven photoevaporation flow observed in a protoplanetary disk
Berné et al. and 145 co-authors, including Baruteau
Accepted in Science, in press (astro-ph)

[70] AB Aur, a Rosetta stone for studies of planet formation (III): continuum observations at 2 and 7 mm
Rivière-Marichalar, Macías, Baruteau, Fuente, Neri, Ribas, Esplugues, Navarro-Almaida, Osorio & Anglada
Accepted in A&A, in press (astro-ph)

[69] The polarisation properties of the HD 181327 debris ring. Evidence for sub-micron particles from scattered light observations
Milli et al. and 28 co-authors, including Baruteau
2024, A&A, 683, A22-43 (astro-ph)

[68] Hydrodynamic modelling of dynamical tides dissipation in Jupiter’s interior as revealed by Juno
Dhouib, Baruteau, Mathis, Debras, Astoul & Rieutord
2024, A&A, 682, A85-102 (astro-ph)

[67] ATMOSPHERIX: II- Characterising exoplanet atmospheres through transmission spectroscopy with SPIRou
Debras and 27 co-authors, including Baruteau
2024, MNRAS, 527, 566-582 (astro-ph)

[66] ATMOSPHERIX: I- An open source high resolution transmission spectroscopy pipeline for exoplanets atmospheres with SPIRou
Klein and 29 co-authors, including Baruteau
2024, MNRAS, 527, 544-561 (astro-ph)

[65] Monitoring the young planet host V1298 Tau with SPIRou: planetary system and evolving large-scale magnetic field
Finociety, Donati, Cristofari, Moutou, Cadieux, Cook, Artigau, Baruteau and 9 more co-authors
2023, MNRAS, 526, 4627-4672 (astro-ph)

[64] Using planet migration and dust drift to weigh protoplanetary discs
Wu, Baruteau and Nayakshin
2023, MNRAS, 523, 4869-4882 (astro-ph)

[63] The beta Pictoris system: Setting constraints on the planet and the disk structures at mid-IR wavelengths with NEAR
Skaf, Boccaletti, Pantin, Thebault, Kral, Danielski, Galicher, Milli, Lagrange, Baruteau and 19 more co-authors
2023, A&A, 675, A35-49 (astro-ph)

[62] AB Aur, a Rosetta stone for studies of planet formation (II): H2S detection and sulfur budget
Rivière-Marichalar, Fuente, Esplugues, Wakelam, Le Gal, Baruteau, Ribas, Macías, Neri & Navarro-Almaida
2022, A&A, 665, A61-71 (astro-ph)

[61] How the planetary eccentricity influences the pebble isolation mass
Chametla, Masset, Baruteau & Bitsch
2022, MNRAS, 510, 3867-3875 (astro-ph)

[60] Wide Dust Gaps in Protoplanetary Disks Induced by Eccentric Planets: A Mass-Eccentricity Degeneracy
Chen, Wang, Li, Baruteau & Lin
2021, ApJ, 922, 184-193 (astro-ph)

[59] A dusty filament and turbulent CO spirals in HD135344B - SAO206462
Casassus, Christiaens, Carcamo, Perez, Weber, Ercolano, van der Marel, Pinte, Dong, Baruteau and 8 more co-authors
2021, MNRAS, 507, 3789-3809 (astro-ph)

[58] Observational signatures of eccentric Jupiters inside gas cavities in protoplanetary discs
Baruteau, Wafflard-Fernandez, Le Gal, Debras, Carmona, Fuente & Rivière-Marichalar
2021, MNRAS, 505, 359-376 (astro-ph)

[57] The complex interplay between tidal inertial waves and zonal flows in differentially rotating stellar and planetary convective regions I. Free waves
Astoul, Park, Mathis, Baruteau & Gallet
2021, A&A, 647, 144-168 (astro-ph)

[56] Revisiting migration in a disc cavity to explain the high eccentricities of warm Jupiters
Debras, Baruteau & Donati
2021, MNRAS, 500, 1621-1632 (astro-ph)

[55] Observational Constraints on the Formation and Evolution of Neptune-Class Exoplanets
Deleuil, Pollacco, Baruteau, Rauer & Blanc
2020, Space Science Reviews, 216, 105 (astro-ph)

[54] AB Aur, a Rosetta stone for studies of planet formation (I): chemical study of a planet-forming disk
Rivière-Marichalar, Fuente, Le Gal, Baruteau, Neri, Navarro-Almaida, Treviño-Morales, Macías, Bachiller & Osorio
2020, A&A, 642, 32-46 (astro-ph)

[53] Linking studies of tiny meteoroids, zodiacal dust, cometary dust and circumstellar disks
Levasseur-Regourd, Baruteau, Lasue, Milli & Renard
2020, Planetary & Space Science, 186, 104896 (astro-ph)

[52] Intermittent planet migration and the formation of multiple dust rings and gaps in protoplanetary disks
Wafflard-Fernandez & Baruteau
2020, MNRAS, 493, 5892-5912 (astro-ph)

[51] The impact of planet wakes on the location and shape of the water iceline in a protoplanetary disk
Ziampras, Ataiee, Kley, Dullemond & Baruteau
2020, A&A, 633, A29-42 (astro-ph)

[50] Does magnetic field impact tidal dynamics inside the convective zone of low-mass stars along their evolution?
Astoul, Mathis, Baruteau, Gallet, Strugarek, Augustson, Brun & Bolmont
2019, A&A, 631, A111-122 (astro-ph)

[49] An Ideal Testbed for Planet-disk Interaction: Two Giant Protoplanets in Resonance Shaping the PDS 70 Protoplanetary Disk
Bae, Zhu, Baruteau, Benisty, Dullemond, Facchini, Isella, Keppler, Pérez & Teague
2019, ApJL, 884, L41-52 (astro-ph)

[48] Magnetic field, activity and companions of V410 Tau
Yu, Donati, Grankin, Collier Cameron, Moutou, Hussain, Baruteau, Jouve & the MaTYSSE collaboration
2019, MNRAS, 489, 5556-5572 (astro-ph)

[47] Chondrule Formation by the Jovian Sweeping Secular Resonance
Gong, Zheng, Lin, Silsbee, Baruteau & Mao
2019, ApJ, 883, 164-175 (astro-ph)

[46] Upper limits on protolunar disc masses using ALMA observations of directly-imaged exoplanets
Pérez, Marino, Casassus, Baruteau, Zurlo, Flores & Chauvin
2019, MNRAS, 488, 1005-1011 (astro-ph)

[45] Gas accretion within the dust cavity in AB Aur
Rivière-Marichalar, Fuente, Baruteau, Neri, Treviño-Morales, Carmona, Agúndez & Bachiller
2019, ApJL, 879, L14-18 (astro-ph)

[44] Dust unveils the formation of a mini-Neptune planet in a protoplanetary ring
Pérez, Casassus, Baruteau, Dong, Hales & Cieza
2019, AJ, 158, 15-25 (astro-ph)

[43] Dust traps in the protoplanetary disc MWC 758: two vortices produced by two giant planets?
Baruteau, Barraza, Pérez, Casassus, Dong, Lyra, Marino, Christiaens, Zhu, Carmona, Debras & Alarcon
2019, MNRAS, 486, 304-319 (astro-ph)

[42] Cm-wavelength observations of MWC758: resolved dust trapping in a vortex and intra-cavity signal
Casassus, Marino, Lyra, Baruteau and 12 more co-authors
2019, MNRAS, 483, 3278-3287 (astro-ph)

[41] The Disk Substructures at High Angular Resolution Project (DSHARP): VII. The Planet-Disk Interactions Interpretation
Zhang, Zhu, Huang, Guzmán, Andrews, Birnstiel, Dullemond, Carpenter, Isella, Pérez, Benisty, Wilner, Baruteau, Bai & Ricci
2018, ApJ, 869, L47-78 (astro-ph)

[40] How much does turbulence change the pebble isolation mass for planet formation?
Ataiee, Baruteau, Alibert & Benz
2018, A&A, 615, 110-120 (astro-ph)

[39] Probing the cold dust emission in the AB Aur disk: A dust trap in a decaying vortex?
Fuente, Baruteau, Neri, Carmona, Agúndez, Goicoechea, Bachiller, Cernicharo & Berné
2017, ApJ Letters, 846, L3-8 (astro-ph)

[38] A hot Jupiter around the very active weak-line T Tauri star TAP 26
Yu, Donati, Hébrard, Moutou, Malo, Grankin, Hussain, Collier Cameron, Vidotto, Baruteau and 9 more co-authors
2017, MNRAS, 467, 1342-1359 (astro-ph)

[37] A gas density drop in the inner 6 AU of the transition disk around the Herbig Ae star HD 139614: Further evidence for a giant planet inside the disk?
Carmona, Thi, Kamp, Baruteau and 15 more co-authors
2017, A&A, 598, 118-146 (astro-ph)

[36] A hot Jupiter orbiting a 2-Myr-old solar-mass T Tauri star
Donati, Moutou, Malo, Baruteau and 10 more co-authors
2016, Nature, 534, 662-666 (astro-ph)

[35] Gravito-inertial waves in a differentially rotating spherical shell
Mirouh, Baruteau, Rieutord & Ballot
2016, Journal of Fluid Mechanics, 800, 213-247 (astro-ph)

[34] Formation, Orbital and Internal Evolutions of Young Planetary Systems
Baruteau, Bai, Mordasini & Mollière
2016 in The Disk in Relation to the Formation of Planets and their Proto-atmospheres (Springer) & Space Science Reviews, 205, 77-124 (astro-ph)

[33] Modelling circumbinary protoplanetary disks: II. Gas disk feedback on planetesimal dynamical and collisional evolution in the circumbinary systems Kepler-16 and 34
Lines, Leinhardt, Baruteau, Paardekooper & Carter
2016, A&A, 590, A62-73 (astro-ph)

[32] High spatial resolution imaging of SO and H2CO in AB Auriga: the first SO image in a transitional disk
Pacheco-Vázquez, Fuente, Baruteau, Berné, Agúndez, Neri, Goicoechea, Cernicharo & Bachiller
2016, A&A, 589, 60-70 (astro-ph)

[31] Tidal inertial waves in the differentially rotating convective envelopes of low-mass stars — I. Free oscillation modes
Guenel, Baruteau, Mathis & Rieutord
2016, A&A, 589, 22-38 (astro-ph)

[30] Gas and dust hydrodynamical simulations of massive lopsided transition discs — II. Dust concentration
Baruteau & Zhu
2016, MNRAS, 458, 3927-3941 (astro-ph)

[29] Gas and dust hydrodynamical simulations of massive lopsided transition discs — I. Gas distribution
Zhu & Baruteau
2016, MNRAS, 458, 3918-3926 (astro-ph)

[28] Modelling circumbinary protoplanetary disks: I. Fluid simulations of the Kepler-16 and 34 systems
Lines, Leinhardt, Baruteau, Paardekooper & Carter
2015, A&A, 582, 5-16 (astro-ph)

[27] Very Large Telescope observations of Gomez’s Hamburger: Insights into a young protoplanet candidate
Berné, Fuente, Pantin, Bujarrabal, Baruteau, Pilleri, Habart, Ménard, Cernicharo, Tielens & Joblin
2015, A&A Letters, 578, 8-13 (astro-ph)

[26] Protoplanetary disks including radiative feedback from accreting planets
Montesinos, Cuadra, Perez, Baruteau & Casassus
2015, ApJ, 806, 253-264 (astro-ph)

[25] Forming Circumbinary Planets: N-body Simulations of Kepler-34
Lines, Leinhardt, Paardekooper, Baruteau & Thébault
2014, ApJ Letters, 782, L11-16 (astro-ph)

[24] Nonlinear evolution of tidally forced inertial waves in rotating fluid bodies
Favier, Barker, Baruteau & Ogilvie
2014, MNRAS, 439, 845-860 (astro-ph)

[23] Planet-disc interactions and early evolution of planetary systems
Baruteau, Crida, Paardekooper, Masset, Guilet, Bitsch, Nelson, Kley & Papaloizou
2014, Protostars and Planets VI (University of Arizona Press), 914, 667-689 (astro-ph)

[22] Disk-planets interactions and the diversity of period ratios in Kepler’s multi-planetary systems
Baruteau & Papaloizou
2013, ApJ, 778, 7-21 (astro-ph)

[21] Influence of the circumbinary disk gravity on planetesimal accumulation in the Kepler 16 system
Marzari, Thébault, Scholl, Picogna & Baruteau
2013, A&A, 553, A71-79 (astro-ph)

[20] Type I planet migration in weakly magnetised laminar discs
Guilet, Baruteau & Papaloizou
2013, MNRAS, 430, 1764-1783 (astro-ph)

[19] Recent developments in planet migration theory
Baruteau & Masset
2013, Tidal effects in Astronomy and Astrophysics (Springer) & Lecture Notes in Physics, 861, 201-253 (astro-ph)

[18] Inertial waves in a differentially rotating spherical shell
Baruteau & Rieutord
2013, Journal of Fluid Mechanics, 719, 47-81 (astro-ph)

[17] Protoplanetary migration in non-isothermal discs with turbulence driven by stochastic forcing
Pierens, Baruteau & Hersant
2012, MNRAS, 427, 1562-1573 (astro-ph)

[16] How not to build Tatooine: the difficulty of in situ formation of circumbinary planets Kepler 16b, Kepler 34b and Kepler 35b
Paardekooper, Leinhardt, Thébault & Baruteau
2012, ApJ Letters, 754, L16-20 (astro-ph)

[15] No slow-plough mechanism during the rapid hardening of supermassive black hole binaries
Baruteau, Ramirez-Ruiz & Masset
2012, MNRAS Letters, 423, L65-69 (astro-ph)

[14] Eccentricity of radiative discs in close binary-star systems
Marzari, Baruteau, Scholl & Thébault
2012, A&A, 539, A98-110 (astro-ph)

[13] Corotation torques experienced by planets embedded in weakly magnetized turbulent discs
Baruteau, Fromang, Nelson & Masset
2011, A&A, 533, A84-99 (astro-ph)

[12] Numerical convergence in self-gravitating disc simulations: initial conditions and edge effects
Paardekooper, Baruteau & Meru
2011, MNRAS Letters, 416, L65-69 (astro-ph)

[11] Rapid inward migration of planets formed by gravitational instability
Baruteau, Meru & Paardekooper
2011, MNRAS, 416, 1971-1982 (astro-ph)

[10] On the dynamics of resonant super-Earths in disks with turbulence driven by stochastic forcing
Pierens, Baruteau & Hersant
2011, A&A, 535, A5-16 (astro-ph)

[9] Binaries migrating in a gaseous disk: Where are the Galactic center binaries?
Baruteau, Cuadra & Lin
2011, ApJ, 726, 28-46 (astro-ph)

[8] A torque formula for non-isothermal Type I planetary migration - II. Effects of diffusion
Paardekooper, Baruteau, & Kley
2011, MNRAS, 410, 293-303 (astro-ph)

[7] Planet—planet scattering in circumstellar gas disks
Marzari, Baruteau & Scholl
2010, A&A Letters, 514, L4-6 (astro-ph)

[6] Protoplanetary migration in turbulent isothermal disks
Baruteau & Lin
2010, ApJ, 709, 759-773 (astro-ph)

[5] A torque formula for non-isothermal Type I planetary migration - I. Unsaturated horseshoe drag
Paardekooper, Baruteau, Crida & Kley
2010, MNRAS, 401, 1950-1964 (astro-ph)

[4] On the eccentricity of self-gravitating circumstellar disks in eccentric binary systems
Marzari, Scholl, Thébault & Baruteau
2009, A&A, 508, 1493-1502 (astro-ph)

[3] The dynamical role of the circumplanetary disc in planetary migration
Crida, Baruteau, Kley & Masset
2009, A&A, 502, 679-693 (astro-ph)

[2] Type I planetary migration in a self-gravitating disk
Baruteau & Masset
2008 ApJ, 678, 483-497 (astro-ph)

[1] On the corotation torque in a radiatively inefficient disk
Baruteau & Masset
2008, ApJ, 672, 1054-1067 (astro-ph)


PhD manuscript

Toward predictive scenarios of planetary migration
Baruteau, C. (PhD advisor: F. Masset)
2008, 199 pages
PDF