fragmentation of massive dense clumps: unveiling the initial conditions of massive star formation...
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Fragmentation of massive dense clumps: unveiling the initial conditions of massive star formation
(ALMA cycle-1 accepted project)
FRANCESCO FONTANI INAF-Osservatorio Astrofisico di Arcetri
Maite Beltràn INAF-OAARiccardo Cesaroni INAF-OAAAlvaro Sanchez-Monge INAF-OAALeonardo Testi ESO & INAF-OAAMalcolm Walmsley INAF-OAAJan Brand INAF-IRA Andrea Giannetti INAF-IRA / MPIfR (D)
Benoit Commerçon ENS Lyon (F) Patrick Hennebelle ENS Paris (F) Paola Caselli MPE (D)Steven Longmore U Liverpool (UK)Jonathan Tan U Florida (US)Richard Dodson ICRAR (AUS)Maria Rioja ICRAR (AUS)
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Astrophysical context and motivationStar formation: standard theory Shu, Adams & Lizano 1987
1. PRE-STELLAR PHASE:
2. PROTO-STELLAR PHASE
3. PRE-MAIN SEQUENCE PHASE
1 pc
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tacc=M*/(dM/dt)
tK-H =GM*2/R*L*
M*<8Mʘ: tacc< tK-H
M*>8Mʘ: tacc> tK-H pre-main sequence: NOaccretion on MS !
pre-main sequence: YES
Two relevant timescales in thestandard theory:
Astrophysical context and motivation
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Astrophysical context and motivation
BASIC PROBLEM of the STANDARD MODEL: The radiation pressure of the “embryo” star STOPS accretion
M*>8Msun CANNOT FORM
SOLUTIONS:
1. COMPETITIVE-ACCRETION: Fragmentation of a massive clump into many low-mass seeds which keep
accreting from unbound gas, and/or merge through collisions (e.g. Bonnell et al. 1998, 2001, Bonnell & Bate 2005, Wang et al. 2010)
2. CORE-ACCRETION: Fragmentation of a massive clump inhibited, and non-spherical collapse into a
single high-mass star or close binary system (e.g. Wolfire & Cassinelli 1978, McLaughlin & Pudritz 1996, Yorke & Sonnhalter 2002, Tan & McKee 2003)
Courtesy of L. Carbonaro
Fragmentation of the parent clump crucial
1.
2.
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Fragmentation influenced by:
Intrinsic turbulence
Magnetic support
Protostellar feedback
(e.g. Krumholz 2006; Hennebelle et al. 2011)
gravity vs
Astrophysical context and motivation
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Astrophysical context and motivationPredictions of theoretical models:(Hennebelle et al. 2011; Commerçon et al. 2012)
μ = (M/Φ)/(M/Φ)crit
280 GHz cont. N2H+ (3-2)
μ = 2 , dominant magnetic supportμ = 130, faint magnetic support
The role of magnetic field can be tested deriving the population of fragments (or cores) in pristine massive clumps
Core separation ~ 1000 A.U. Masses: from 0.2 to 10 M
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Astrophysical context and motivationPredictions of theoretical models: magnetic vectors(Hennebelle et al. 2011; Commerçon et al. 2012)
μ = 2 , dominant magnetic support μ = 130, faint magnetic support
The role of magnetic field can be tested deriving the population of fragments (or cores) in pristine massive clumps
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Testing theories with observationsProblems: Massive starless clumps are RARE • Typical distances greater than 1 kpc: SMALL ANGULAR SIZE• Surrounded by large amount of other gas: CONFUSION• FREEZE-OUT of species commonly used to derive physics and kinematics
T < 20 Kn(H2) > 105 cm-3
High CO (and CS) DEPLETION FACTOR fD = X(CO)T/X(CO)O > 1
(e.g. Caselli et al. 2002, Tafalla et al. 2004, Fontani et al. 2012)
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The need for ALMA (cycle-1)
Few studies with linear resolution 1500 – 2000 AU so far Current facilities (except ALMA) cannot reach the requested sensitivity (0.2 M ~ Jeans mass) in reasonable integration times for many sources
ALMA in cycle-1 offers: (1) the sensitivity and (2) the angular resolution appropriate for this project
…but finding good targets is challenging!
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1.2 mm + MSX @ 8 m
1.2 mm + MSX @ 8 mm
Courtesy M. Beltran
The sampleInitial sample: 95 millimeter continuum clumps, MSX-dark
(Fontani+2005; Beltrán+2006; Fontani+2012; Sánchez-Monge+2013; Giannetti+2014)
1.2 mm + MSX @ 21 mm
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The sample
Selection criteria:1. Potential sites of massive star formation 2. Cold and chemically young3. Not blended4. Dense
1. Mass, N(H2), Σ(H2) > threshold values for massive star formation2. CO depletion factor fD ≥ 73. Clumps isolated, or separated by more than the SIMBA HPBW from other clumps and signposts of star formation
activity4. Detection in the (non-depleted) high-density gas tracer N2H+
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Fontani+12, MNRAS, 423, 2342
11 entries1. Potential sites of massive star formation
2. Cold and chemically young
The sample
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SIMBA 1.2 mm + Spitzer 24 μmFontani+12, MNRAS, 423, 2342 APEX N2H+(3-2), towards SIMBA peaks
HPBW ~ 24’’ HPBW ~ 19’’
Beltràn+06, A&A, 423, 2342
4. Dense 3. Not blended
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Immediate objective
Goals: 1- CORE POPULATION (mass, number, geometric distribution) 2- KINEMATICS at a linear resolution comparable to the typical fragment separation (~ 1000 A.U.)
Tracers: 1- Continuum @ 280 GHz; 2- N2H+ (3-2) , ncrit ~ 3x106 cm-3
Instrument configuration: C32-5, θ~0.27’’ @ 280 GHz
Integration time: 20 minutes o. s. (3σ~0.27 mJy, i.e. 0.07 M)
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Model output(Hennebelle+11,Commerçon+12)
CASASimulations
(θ ~ 0.27’’,20 mins,
cycle-1)
μ = (M/Φ)/(M/Φ)crit
280 GHz cont. N2H+ (3-2)
μ = 2 , dominant magnetic supportμ = 130, faint magnetic support
What we expect to see….
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Project postponed to cycle-2……