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Steve Boudreault ASTRO DEBATA Tuesday 24 th of February 2009 The formation of brown dwarfs as revealed by the mass function of IC 2391 Collaborators (MPIA)

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Presentation on theme: "Steve Boudreault ASTRO DEBATA Tuesday 24 th of February 2009 The formation of brown dwarfs as revealed by the mass function of IC 2391 Collaborators (MPIA)"— Presentation transcript:

1 Steve Boudreault ASTRO DEBATA Tuesday 24 th of February 2009 The formation of brown dwarfs as revealed by the mass function of IC 2391 Collaborators (MPIA) : Coryn Bailer-Jones Reinhard Mundt Thomas Henning Wei Wang Mario Gennaro (external) : José Caballero, U of Mardid IAC, Canary Islands Ray Jayawardhana, U of Toronto Postdoctoral researcher at the Max-Planck-Institut für Astronomie Heidelberg, Germany

2 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Today, I will talk about …

3 Steve Boudreault ASTRO DEBATA, 24.02.2009 3 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work ⇨ Compression & fragmentation of molecular cloud (star-like)‏ ⇨ Formation in circumstellar disk (planet-like) ⇨ Interruption of star-like accretion (ejection, photoevaporation)‏ Theoretical Background : different formation mechanisms of brown dwarfs How to form brown dwarfs ?

4 Steve Boudreault ASTRO DEBATA, 24.02.2009 4 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work ⇨ Compression & fragmentation of molecular cloud (star-like)‏ ⇨ Formation in circumstellar disk (planet-like) ⇨ Interruption of star-like accretion (ejection, photoevaporation)‏ Theoretical Background : different formation mechanisms of brown dwarfs Distinction between these scenarios : presence / distribution of binaries presence / distribution of binaries kinematics / spatial distribution kinematics / spatial distribution presence of circumstellar disk presence of circumstellar disk Mass function (MF) Mass function (MF) Grether & Lineweaver ( 2006 )P < 5 yr (≤ 3AU for BD) & D ≤ 50pc

5 Steve Boudreault ASTRO DEBATA, 24.02.2009 5 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work ⇨ Compression & fragmentation of molecular cloud (star-like)‏ ⇨ Formation in circumstellar disk (planet-like) ⇨ Interruption of star-like accretion (ejection, photoevaporation)‏ Theoretical Background : different formation mechanisms of brown dwarfs Distinction between these scenarios : presence / distribution of binaries presence / distribution of binaries kinematics / spatial distribution kinematics / spatial distribution presence of circumstellar disk presence of circumstellar disk Mass function (MF) Mass function (MF) ( Taurus star-forming region ) Kumar & Schmeja (2007)

6 Steve Boudreault ASTRO DEBATA, 24.02.2009 6 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work ⇨ Compression & fragmentation of molecular cloud (star-like)‏ ⇨ Formation in circumstellar disk (planet-like) ⇨ Interruption of star-like accretion (ejection, photoevaporation)‏ Theoretical Background : different formation mechanisms of brown dwarfs Distinction between these scenarios : presence / distribution of binaries presence / distribution of binaries kinematics / spatial distribution kinematics / spatial distribution presence of circumstellar disk presence of circumstellar disk Mass function (MF) Mass function (MF) M9.5 M ~ 15 M J

7 Steve Boudreault ASTRO DEBATA, 24.02.2009 7 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work ⇨ Compression & fragmentation of molecular cloud (star-like)‏ ⇨ Formation in circumstellar disk (planet-like) ⇨ Interruption of star-like accretion (ejection, photoevaporation)‏ Theoretical Background : different formation mechanisms of brown dwarfs Distinction between these scenarios : presence / distribution of binaries presence / distribution of binaries kinematics / spatial distribution kinematics / spatial distribution presence of circumstellar disk presence of circumstellar disk Mass function (MF) Mass function (MF) Muench et al. (2002) Bouvier et al. (2008) Briceño et al. (2002)

8 Steve Boudreault ASTRO DEBATA, 24.02.2009 8 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work ⇨ Compression & fragmentation of molecular cloud (star-like)‏ ⇨ Formation in circumstellar disk (planet-like) ⇨ Interruption of star-like accretion (ejection, photoevaporation)‏ Theoretical Background : different formation mechanisms of brown dwarfs Distinction between these scenarios : presence / distribution of binaries presence / distribution of binaries kinematics / spatial distribution kinematics / spatial distribution presence of circumstellar disk presence of circumstellar disk Mass function (MF) Mass function (MF) Bate & Bonnell, 2005, MNRAS, 356, 1201 Numerical simulation of compression & fragmentation of a molecular cloud ⇨ BDs form via the ejection scenario ⇨ BDs form via the ejection scenario Bonnell et al. 2008, MNRAS, 389, 1556 Numerical simulation of compression & fragmentation of a molecular cloud ⇨ BDs form like stars in high gas density ⇨ BDs form like stars in high gas density Luhman et al. 2007, Protostar and Planets V astro-ph/06085461 Review of observational signatures ⇨ Common formation for BDs and stars

9 Steve Boudreault ASTRO DEBATA, 24.02.2009 9 ⇨ Compression & fragmentation of molecular cloud (star-like)‏ ⇨ Formation in circumstellar disk (planet-like) ⇨ Interruption of star-like accretion (ejection, photoevaporation)‏ Theoretical Background : different formation mechanisms of brown dwarfs Distinction between these scenarios : presence / distribution of binaries presence / distribution of binaries kinematics / spatial distribution kinematics / spatial distribution presence of circumstellar disk presence of circumstellar disk Mass function (MF) Mass function (MF) For our project … ⇦ Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work

10 Steve Boudreault ASTRO DEBATA, 24.02.2009 10 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence IC 2391 is an interesting target because … objects in clusters have same metallicity and are coeval objects in clusters have same metallicity and are coeval near : distance is 146pc ( Robichon et al., 1999 ) near : distance is 146pc ( Robichon et al., 1999 ) age of 50Myr ( Barrado y Navascués et al, 2004) age of 50Myr ( Barrado y Navascués et al, 2004) ⇨ not too young ( extinction due to molecular gaz ) ⇨ not too young ( extinction due to molecular gaz ) ⇨ not too old ( relaxation time is 104.9Myr, optical data ) low reddening : E(B-V) = 0.01 ( Randoch et al., 2001 ) previous study of MF : completness limit of 0.072M  no radial study of IC 2391 yet IC 2391 Why the open cluster IC 2391 ?

11 Steve Boudreault ASTRO DEBATA, 24.02.2009 11 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence 35 ESO/WFI fields of 34’x33’ ( ~ 10.9 deg 2 ) Fields chosen to … ⇨ avoid bright stars ⇨ avoid bright stars ⇨ avoid MF gradient due to ⇨ avoid MF gradient due to low galactic latitude b~-6º low galactic latitude b~-6º

12 Steve Boudreault ASTRO DEBATA, 24.02.2009 12 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence Wide bands R c and J Medium bands at 770, 815, 856 and 914 nm ⇨ ESO/WFI (optical data) ⇨ CTIO/CPAPIR (IR data) Those bands were chosen … ⇨ to sample spectra of M and L-dwarfs ⇨ to minimize Earth-sky background

13 Steve Boudreault ASTRO DEBATA, 24.02.2009 13 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence 1st selection : - Color-magnitude diagram - Isochrones 2nd selection : - Color-color diagram - Isochrones - Red giant colors ( Hauschildt et al. 1999 ) - Color VS T eff for G, K, M and L dwarfs

14 Steve Boudreault ASTRO DEBATA, 24.02.2009 14 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence 3rd selection : - Astrometry (from our 8 years baseline) (from our 8 years baseline) 4th selection : - M [obs] VS M [model] ( from Teff and mass ) - Errors on age and distance of IC 2391 - Unresolved binaries

15 Steve Boudreault ASTRO DEBATA, 24.02.2009 15 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V ) ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V )

16 Steve Boudreault ASTRO DEBATA, 24.02.2009 16 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V ) ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V )

17 Steve Boudreault ASTRO DEBATA, 24.02.2009 17 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V ) ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V ) Barrado y Navasqués et al. (2004)

18 Steve Boudreault ASTRO DEBATA, 24.02.2009 18 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V ) ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V ) Ο Jeffries et al. (2004) Δ Naylor et al. (2002)

19 Steve Boudreault ASTRO DEBATA, 24.02.2009 19 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Photometric Survey : determination of the mass function for very low mass stars and brown dwarfs population in IC 2391 and look for radial dependence ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V ) ⇨ Major : radial variation 0.15 M  < M < 0.5 M  ⇨ Major : no radial variation M ≤ 0.11 M  ⇨ Minor : long spectral baseline = less M-dwarf contaminants ⇨ Minor : medium band = less M-giant contaminants ⇨ Minor : colour variation with E ( B – V ) Schlegel et al. (1998)

20 Steve Boudreault ASTRO DEBATA, 24.02.2009 20 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Spectroscopic Follow-up : Spectroscopic Follow-up : improve candidate selection and spectral type determination CTIO / HYDRA 2 Nights in January 2007 ⇨ 1st lost (bad weather) ⇨ 2hrs lost (technical) ⇨ I c ~18 ( 45 M J ) FINALLY WE HAD 4HRS !! ( out of 12hrs awarded )

21 Steve Boudreault ASTRO DEBATA, 24.02.2009 21 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Spectroscopic Follow-up : Spectroscopic Follow-up : improve candidate selection and spectral type determination ⇨ measurement of EW ⇨ SpT determination ⇨ 68 % contamination ⇨ MF ??? … but no red giants.

22 Steve Boudreault ASTRO DEBATA, 24.02.2009 22 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Spectroscopic Follow-up : Spectroscopic Follow-up : improve candidate selection and spectral type determination

23 Steve Boudreault ASTRO DEBATA, 24.02.2009 23 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Spectroscopic Follow-up : Spectroscopic Follow-up : improve candidate selection and spectral type determination FROM PHOTOMETRY : Teff = 2791K M=0.058M  815/20=17.54 V r = 16.25±6.59 km/s

24 Steve Boudreault ASTRO DEBATA, 24.02.2009 24 Theoretical Background Photometric Survey Spectroscopic Follow-up Future Work Future Work : Future Work : follow-up on brown dwarfs candidates and survey on other open clusters ⇨ Other clusters : Praesepe (WFI, O2K, LBTC, WFC, ~45M J ) Coma Ber (O2K, …) Alessi 5 & ASCC 24 (WFI + O2K, ~20M J ) ⇨ VLT/VIMOS for IC2391 (April 2008 --- February 2009) What’s next ? ⇨ NTT/SofI (J & Ks) for IC2391 (deep fields) ⇨ Numerical simulation … evolution of MF of cluster with σ v

25 Steve Boudreault ASTRO DEBATA, 24.02.2009 25 CONCLUSIONS AND REVIEW We are interested in the formation and evolution of BDs population ⇨ Survey in open cluster to obtain MF of VLMS and BDs Photometric survey of IC 2391 ⇨ MF shows no variation on the BDs and VLMS regime ⇨ if formed by ejection, velocity BDs = velocity VLMS ⇨ if velocity BDs > velocity VLMS and ejection give high velocity for BDs, then ejection not dominant formation process NEEDED However important contamination : spectroscopic follow-up NEEDED ⇨ Analyses of preliminary spectroscopic follow-up : 32% real members, no red giants and 7 new brown dwarfs … and additional data from VLT next spring Still a lot of work and projects … FROM PHOTOMETRY : Teff = 2791K M=0.058M  815/20=17.54 V r = 16.25±6.59 km/s

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