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Extreme Horizon

Extreme Horizon

Resolving galactic disks in their cosmic environment

Orion

Orion

Molecular cloud fragmentation and evolution, formation of prestellar cores

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Fragdisk

Fragmentation of self-gravitating disks

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Synthetic disk populations

Resolving protoplanetary disks in massive protostellar clumps

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Wind of HD189733

Unveiling the magnetic link between stars and planets

Dusty collapses

Dusty collapses

Understanding the dynamics of dust during the protostellar collapse

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Acknowledgement

Galactica database acknowledgement

If you use it in your own work, you may acknowledge the origin of the data obtained on the Galactica database like so:

This work reused datasets available on the Galactica simulations database
(http://www.galactica-simulations.eu)
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Patrick HENNEBELLE  

hydrodynamical high resolution

  • Summary
  • Parameters
  • Applied physics
  • Snapshots
    • t=$40.2369 \; \textrm{kyr}$

Summary

This model has no magnetic field (hydrodynamical) and a uniform resolution of $1024^{3}$ grid points. This corresponds to a spatial resolution of about 1 pc. It is the largest resolution hydrodynamical run of this project. This run is described in Iffrig & Hennebelle 2017, A&A, 604, 70.

Simulated using Ramses 3 (MHD)

Parameters

Parameter Value
Height0 150
boxlen_pc 998.16
bx_bound 0
boxlen 1000
by_bound 0
bz_bound 0
dens0 1.5
supernovae .true.
time_Myr 40.2369
turb 5
Tsat 1.d5
boxlen_codeunits 1000
cooling .true.
courant_factor 0.8
eff_sn 0.2
feedback_sink .true.
gamma 1.66667
gravity_type -1
hydro .true.
isothermal .false. !.true.
levelmax 10
levelmin 10
n_sink 1.d3
ncpu 8192
nexpand 1
nstep_coarse 36625
nsubcycle 7*1
pic .true.
poisson .true.
pressure_fix .true.
riemann 'hlld'
riemann2d 'hlld'
sink .true.
slope_type 1
smallc 0.01
smallr 0.0001
time 0.50001
unit_d 2.32474e-24
unit_l 3080000000000000000000
unit_t 2539507940032080
vsat 200
Show all parameters

Applied physics

Self-gravity
Self-Gravity is applied.
Hydrodynamics
Hydrodynamical equations are solved
Magnetohydrodynamics
Ideal magneto-hydrodynamics is resolved.
Supernovae feedback
Supernovae feedback is applied around the densest cell in the simulation at a rate equal to the Milky way rate.

Snapshots

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'LS_00065' snapshot datafile download

Select the datafiles you wish to export from this snapshot (a zip file containing the requested datafiles will be prepared) :

LS_00065 (t=$40.2369 \; \textrm{kyr}$)

descrip_snapshot

Datafiles:
column density along z (field_tot1)
Column density along the z-direction
  • JPEG 
density cut in the xy-plane (field_tot1)
Density in the xy-plane. The arrows represent the velocity field in the xy plane.
  • JPEG 
Temperature cut in the xy-plane (field_tot1)
Temperature in the xy-plane.
  • JPEG 
column density along y (field_tot1)
Column density along the y-direction.
  • JPEG 
density cut in the xz-plane (field_tot1)
Density in the xz-plane. The arrows represent the velocity field in the xz-plane.
  • JPEG 
temperature cut in the xz-plane (field_tot1)
Temperature in the xz-plane.
  • JPEG 
column density along x (field_tot1)
Column density along the x-direction.
  • JPEG 
density cut in the yz-plane (field_tot1)
Density in the yz-plane. The arrows represent the velocity field in the yz-plane.
  • JPEG 
temperature cut in the yz-plane (field_tot1)
Temperature in the yz-plane.
  • JPEG 
mass weighted density PDF
Mass weighted density PDF.
  • PNG 
volume weighted density PDF
Volume weighted density PDF.
  • PNG 
mass weighted temperature
Mass weighted temperature.
  • PNG 
mass weighted Mach number
Mass weighted Mach number.
  • PNG 
rho-Temp 2D-histogram
Mass weighted bidimentional histogram of the temperature vs density
  • PNG 

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This material is Open Data