stars disks and jets the view from telescopes, computers and the lab adam frank university of...
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Stars Disks and Jets The View From Telescopes, Computers
and the Lab
Adam FrankUniversity of Rochester
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A Cast Of Lots and Lots
AstroBEAR development: J. Carroll, B. Lui, M. Huarte-Espinosa, S. Li, E. Hanson, E. Kaminski, K. Yirak*, A. Cunningham*
Observations: Hartigan Lab Experiments, Pulsed Power (JetPac):
Lebedev, Ciardi. Chittenden, Bott, Amplerford, et al.
Lab Experiments, Laser: Foster, Rosen, Wilde, Douglas, Blue, Hansen, Drake, et al.
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Section IThe Problem
An introduction to the general problem of studying star formation and stellar “death” using both traditional and newly available tools and platforms.
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The Problem: Radiation MHD of Star Formation and Late Stages of Stellar
Evolution 1. Collapse of clouds under self-gravity to form stars
2. Mass-loss and binarity in penultimate stages of evolution.
Inherently Multi-physics: Gravity, MHD, radiation,
microphysics Inherently Multi-dimensional. Inherently Time-dependent. Inherently non-linear
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The Problem: Radiation MHD of Star Formation and Late Stages of Stellar
Evolution (LSSE)
Star Formation LSSE: Low vs High Mass
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The Tools. Old to New(*)
Telescopes: High rez (ALMA) All wavelength bands. System time dependence? Projection ?
Analysis: Stability, Low Dimensional dynamics (self-similarity) f(x,t) = f*g(s); s = h(x,t)
*Simulations; HPC = Multi-D, multi-physics, full non-linearity. Resolution in space (and time) still an issue
**Laboratory Studies: macro-scopic volumes of plasma brought to astrophysical condition. Similarity allows relevance across scales
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How to do High Energy Density Laboratory Astrophysics (HEDLA)
Pulsed Power: Current driven wire ablation creates MHD plasma systems.
Lasers: Inertial Confinement Fusion systems (Omega, NIF).
Drake, Remington & Ryutov 2006 RvMP Key: Scaling via dimensionless #s
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Section IIAstroBEAR 2.0
An introduction to our primary tool. A highly parallelized Adaptive Mesh Refinement (AMR) MHD Multi-physics code for astrophysical fluid dynamics.
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• Solve hyperbolic PDE with elliptic constraints: MHD
• Source terms for energy loss/gain, ionization dynamics, Real EOS
• Operator splitting: gravity, heat conduction (HYPRE)
• Sink Particle/Particle Dynamics
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Adaptive Mesh Refinement AMR
R. Deiterding
• Different AMR Methods:Patch based regriddingCell based regridding
AstroBEAR: patch
• Divergence Issue: Use CT
• Require Prolongation/Restriction Operators (MHD Toth & Roe 02, Balsara 01)
Carry data from one grid level to another
• Prolongation (Corse to Fine)• Restriction (Fine to Corse)
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AstroBEAR 2.0 (Carroll et al 2012)
Now public code Extensive “live”
online documentation
Ticketing system for technical support
Favor collaborative models if possible
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AMR Engine redesigned with a peer to peer model for parallelization. It utilized a distributed tree to manage AMR structure, and advance threads to overlap computation with communication.
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Multi-Physics Example: Thermal Conduction(Li et al 2012)
Ksergcm103.3
3.~ and 5 whereKscm erg106.5
FluxHeat cAnisotropi
FluxHeat Isotropic
0
1/2-1-222/12
216
3sat
7/2-1-1-2/57||
22||
TB
n
cQTT
BB
BTTB
B
BTQ
TQ
QpEudt
dE
s
Official release only supports explicit conduction, though implicit version has been developed and is currently being tested.Explicit version does not currently sub-cycle, so hydro time step is limited to diffusion time.
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Magneto-Thermal Instability
Hydrostatic equilibrium with cold material on top of warm material.Small velocity perturbation.As field lines bend, heat is able to flow upward, causing material to become buoyant.As buoyant material moves upward, it amplifies field line perturbations.
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Section IIIStars and Star Formation
The problem of molecular cloud and star formation in colliding galactic streams with a laboratoray astrophysics analogue.
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Colliding Flows and Molecular CloudsBasic Idea
Star formation occurs before global collapse.
Less than a sound crossing time
Observed Turbulent flows Observed Filamentary
structure
Model for Molecular Clouds Colliding Supersonic Stream Essentially transient process
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Colliding Flows and Molecular CloudsBasic Idea
Colliding Supersonic Streams SN blastwaves Galactic rotation
NTSI
Thermal Instablity Gravitational
CollapseVazquez-Semadeni et al 2007
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Thermal Instability: From WNM to “Clouds”
Cooling/Heating CurveKI 2002: Analytic Fit to Multiple Processes
density
Pre
ssure
density
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Cloud Formation and Colliding FlowsAxial View (Carroll et al 2013)
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Flows provide a reservoir of mass.
As mass accumulates clumps become gravitationally unstable.
Cloud Formation and Colliding FlowsThermal Instability
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Clumps and Turbulence
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PPower Lab Exps for Colliding Flows(for lasers see Krauland et al 2012)
No gravity but… NTSI
Kelvin-Helmholtz Cooling MHD
Key… Make jets!
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Lab Experiments for Colliding Flows Colliding beams of magnetized plasma NLTS; Kelvin-Helmholtz; Cooling
Shock bounded cold slab
Supersonic flow (jet)
to diagnostics
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Lab Experiments
No gravity but… NLTS Kelvin-Helmholtz Cooling MHD
Shock bounded cold slab
Supersonic flow (jet)
to diagnostics
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Section IVDisks
Disk formation in wind capture binary systems and new limits on Bondi-Hoyle accretion
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Bondi-Hoyle Accretion
Gravitational point source moving through background medium.
Many open questions: What is accretion rate? Is flow stable When do disks form?
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BH Accretion in Binary SystemHuarte-Espinosa et al (2013)
Critical for understanding evolution Do disks form? Do jets form?
Step 1: Resolution is critical. Must capture impact parameter
b
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Computational Set-Up
Move into rotating frame.
“Tune” AMR Focus on accreator.
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Dis
k Fo
rmati
on
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Disks Properties vs Orbital Distance
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HEDP Disk project: Bocchi et al 2012
Based on proposal by Ryutov et al.
Use lasers or Pulsed Power to drive off-axis streams towards axis
Collsions generate rotational flow
MHD = field “winding”.
Dynamo? MRI?
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Simulations show “disk” formation.Stable for 4 to 5 “orbits”
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Section VJets
Collimated beams of plasma are ubiquitious in astrophysics. Magnetic fields are likely key to launching. In Poynting Flux Dominated (PFD) flows the field energy overwhelms kinetic flux. We study propagation and stability of PDF jets.
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Plasma Jets Ubiquitous Astrophysical Phenomena
HH JetHH 111
Planetary NebulaM2-9 (B, PFD)
Extra-galactic Jet: Cen A (PFD)
Micro-quasar (B, PFD)
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Poynting Flux Dominated (PFD)Flows:What Does it Mean
Kinetic Energy Dominated JetsFkin > FExB
Vj > VA
PDF JetsFkin < FExB
Vj < VA
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Magnetic Towers
PFD jets also known as Magnetic Towers. (Lynden-Bell 1996)
Need Differential Rotation Accretion (?)
(YSO: Kato et al)
(GRB: Wheeler et al)
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Huarte-Espinosa et al 2012
Initial Conditions
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Results 1: Density and Plasma Beta
Poynting flux injected at base drives expansion
Hoop stresses maintain collimation
Ambient plasma swept up becomes visible via radiative shocks
Central matter domatinate “spine”
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Results 2: Field Structure
Features: Central spine with b
> Outer Cavity b << 1
Cylindrical symmetry lost as evolution progresses
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Magnetic Towers and Internal Physics:3 Cases
Hydro JetRotationRad CoolingAdiabatic
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Results 3. StabilityMagnetic Tower:Current Driven Instabilities (CDIs)
M= 0 pinch modeM=1 kink Mode
Kink Mode: Kruskal-Shafranov condition
Cooling: Lowers bRotation: Raises Bf
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Instabilities and Clumpy Flows
Flows evolve into series of weakly
magnetized clumps
CRL 618
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HEDLA Magnetic Tower Exps.
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Conclusions
AstroBEAR up to the challenge! Massively parallel Multi-physics AMR
Colliding flows offer explanation for star forming cloud formation
Bondi-Hoyle Accretion in binary systems leads to stable disks (and jets?)
MHD jets are likely to be unstable to kink modes HEDLA studies can access parts of the physics
in all these systems.
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Scaling and Physics
Hydro/MHD equations admit scale free solutions
=> Dimensionless numbers determine “similarity” of systems with different scales.
Dimensionless numbers also determne unimportant physical processes (dissipation, conduction etc.) 2
4
Re
Re
BP
uL
cuM
UCTPe
L
UL
g
M
hydro
cool
a
j
s
MFP
Reynolds #: Viscosity
Collisionality
Peclet #; Heat cond.
Mach #
Jet density ratio
Cooling Parameter
Mag. Reynolds #: resist.
Plasma Beta:
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Scaling
Re G Pe M e c ReMb
YSO Jet
~ 107
~10-
3
>101
0
10 10 10-3 >101
9
~1
PPExp
104 10-5 10 5 - 10
> 10
10-3 10 - 200
1 - .01
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