wiki:u/madams/CollidingFlowsFigures

Version 110 (modified by Erica Kaminski, 10 years ago) ( diff )

THIS PAGE IS UNDER CONSTRUCTION AND BEING UPDATED WITH NEW PLOTS :) Sorry for any inconvenience. I should be done soon! If you still want to look, check what is being updated currently in case you can do without what I am updating.

— Marissa (January 20, 2015 at 10:45 am EST)

Link to Jonathan's Paper: The Effects of Inhomogeneities within Colliding Flows on the Formation and Evolution of Molecular Clouds

Individual Run Views

Shear 0

Shear 0

Column Density Map with Sinks (left)
In corrected units of n (cm-2)

Inverse Beta Maps (right)
Made by projecting the quantity, inverse beta, through the grid.

Sinks

Total = 4.

x-coordinate y-coordinate z-coordinate Frame first formed Time (Myr)
0.3580301426376783E+02 0.5583260065869881E+02 0.4744728345853505E+02 111 10.989
0.3591948633316569E+02 0.5599960059841729E+02 0.4755724200098079E+02 120 11.88
0.3592038143464333E+02 0.5602448247390073E+02 0.4759416563811598E+02 138 13.662
0.4466503282380260E+02 0.3812302562076298E+02 0.2979888217591489E+02 236 23.364

B vs. n
The gray scale is for the thermal pressure vs density plots, and the color scale is the magnetic pressure vs. density plots.

Bvn, B10S0

Spectra
Gravitational energy spectra made by taking the Fourier Transform of Sqrt(-gravitational_energy) to avoid nans, since the gravitational energy was everywhere negative.

E vs. t Plots
Total energy in the collision region over time

Streamline Plots (Global (top) vs. Local (bottom))
Example streamline plot


Shear 15

Shear 15

Column Density Map with Sinks (left) & Inverse Beta Maps (right)

Sink Notes:

  • The number of the sinks that form by the end of this simulate is 4.
  • Here are their positions as seen down the barrel of the flow (see mass1 CDM plots) at final frame:
x-coordinate y-coordinate z-coordinate Frame first formed Time (Myr)
0.1305682043010144E+02 0.3580800770207890E+02 0.4129367537908288E+02 181 17.919
0.2937052647084789E+02 0.2858707153097011E+02 0.4979800440789958E+02 203 20.097
0.1091652250727393E+02 0.3376306960635957E+02 0.3950925227711014E+02 240 23.736
0.1207128507734911E+02 0.3388115980751113E+02 0.5017452402782457E+02 264 26.11
0.8440382620675154E+01 0.3511264544524086E+02 0.3952903168886192E+02 268 26.51

B vs. n

Spectra

Shear 30

Shear 30

Column Density Map with Sinks (left) & Inverse Beta Maps (right)

Sink Notes:

  • The number of the sinks that form by the end of this simulate is 1.
  • Here is its position as seen down the barrel of the flow (see mass1 CDM plots) at final frame:
x-coordinate y-coordinate z-coordinate Frame first formed Time (Myr)
0.1032301279173488E+03 0.4004537800939340E+02 0.3379219676015539E+02 138 13.662

B vs. n

Bvn, B10S30

Spectra

Shear 60

Shear 60

Column Density Map with Sinks (left) & Inverse Beta Maps (right)

Sink Notes:

  • The number of the sinks that form by the end of this simulate is 1.
  • Here is its position as seen down the barrel of the flow (see mass1 CDM plots) at final frame:
x-coordinate y-coordinate z-coordinate Frame first formed Time (Myr)
0.1041261309696830E+03 0.4905580044221398E+02 0.3609678184879078E+02 320 31.68

B vs. n

Bvn, B10S60

Spectra

Table Comparison Views

For each run: Column Density Maps

Map-Run Shear 0 Shear 15 Shear 30 Shear 60
Column Density Map with Sinks

For each run: Inverse Beta Maps

Map-Run Shear 0 Shear 15 Shear 30 Shear 60
Inverse Beta Maps

For each run: CD & Inverse Beta Maps

Run-Map Column Density Map with Sinks Inverse Beta Maps
Shear 0
Shear 15
Shear 30
Shear 60

B vs. n: Run vs. time

B vs. n-Time Time (as stated on figure)
Shear 0 Bvn, B10S0
Shear 15
Shear 30 Bvn, B10S30
Shear 60 Bvn, B10S60

Spectra: Energies vs. Run

  • Forgot to add the axes labels (E(k) vs. k)
Run-Energy Gravitational Magnetic Kinetic
Shear 0
Shear 15
Shear 30
Shear 60

Spectra: Energies vs. Time

Time-Energy Gravitational Magnetic Kinetic
0 Myr
10 Myr
20 Myr
27 Myr

Spectra: Run vs. Time

Time-Run Shear 0 Shear 15 Shear 30 Shear 60
0 Myr
10 Myr
20 Myr
27 Myr

Previous Suites of Figures and Notes

Notes

Notes

The links for the types of diagnostic will bring you to a page with important information, and descriptions of what each of them are and how they were made.

Meeting Notes:

Download from 12-18-2014 (.pdf): Meeting Notes

First Set of Figures: Exp. 01-07-2015

First Set of Figures

Beta 10 Shear 0:

Column Density Map CDM with Projected Streamlines and Magnetic Field Vectors

B vs. n

Bvn, B10S0

Beta Map Inverse Beta Map

Old Beta Maps:

Beta map with mass contours

Beta inverse map with mass contours

Beta 10 Shear 15:

Column Density Map CDM with Projected Streamlines and Magnetic Field Vectors

B vs. n

Beta Map Inverse Beta Map

Beta 10 Shear 30:

Column Density Map CDM with Projected Streamlines and Magnetic Field Vectors

B vs. n

Bvn, B10S30

Beta Map Inverse Beta Map

Old Beta Maps:

Beta map with mass contours

Beta inverse map with mass contours

Beta 10 Shear 60:

Column Density Map CDM with Projected Streamlines and Magnetic Field Vectors

B vs. n

Bvn, B10S60

Beta Map Inverse Beta Map

Old Beta Maps:

Beta map with mass contours

Beta inverse map with mass contours

Spectra Plots:

0 Myr

The Shear 60 case produced NANs for 0 Myr. May have to revisit code?

10.1 Myr

20.1 Myr

27.2 Myr

32.8 Myr, Shear 60

Second Set of Figures: Exp. 01-20-2015

Second Set of Figures

Shear 0

Column Density Map with Sinks (left)
In corrected units of n (cm-2)

Inverse Beta Maps (right)
Made by projecting the quantity, inverse beta, through the grid.

Sinks

Total = 4.

x-coordinate y-coordinate z-coordinate Frame first formed Time (Myr)
0.3580301426376783E+02 0.5583260065869881E+02 0.4744728345853505E+02 111 10.989
0.3591948633316569E+02 0.5599960059841729E+02 0.4755724200098079E+02 120 11.88
0.3592038143464333E+02 0.5602448247390073E+02 0.4759416563811598E+02 138 13.662
0.4466503282380260E+02 0.3812302562076298E+02 0.2979888217591489E+02 236 23.364

B vs. n
The gray scale is for the thermal pressure vs density plots, and the color scale is the magnetic pressure vs. density plots.

Bvn, B10S0

Spectra
Gravitational energy spectra made by taking the Fourier Transform of Sqrt(-gravitational_energy) to avoid nans, since the gravitational energy was everywhere negative.

E vs. t Plots
Total energy in the collision region over time

Streamline Plots (Global (top) vs. Local (bottom))
Example streamline plot

Shear 15

Column Density Map with Sinks (left) & Inverse Beta Maps (right)

Sink Notes:

  • The number of the sinks that form by the end of this simulate is 4.
  • Here are their positions as seen down the barrel of the flow (see mass1 CDM plots) at final frame:
x-coordinate y-coordinate z-coordinate Frame first formed Time (Myr)
0.1305682043010144E+02 0.3580800770207890E+02 0.4129367537908288E+02 181 17.919
0.2937052647084789E+02 0.2858707153097011E+02 0.4979800440789958E+02 203 20.097
0.1091652250727393E+02 0.3376306960635957E+02 0.3950925227711014E+02 240 23.736
0.1207128507734911E+02 0.3388115980751113E+02 0.5017452402782457E+02 264 26.11
0.8440382620675154E+01 0.3511264544524086E+02 0.3952903168886192E+02 268 26.51

B vs. n

Spectra

E vs. t Plots

Shear 30

Column Density Map with Sinks (left) & Inverse Beta Maps (right)

Sink Notes:

  • The number of the sinks that form by the end of this simulate is 1.
  • Here is its position as seen down the barrel of the flow (see mass1 CDM plots) at final frame:
x-coordinate y-coordinate z-coordinate Frame first formed Time (Myr)
0.1032301279173488E+03 0.4004537800939340E+02 0.3379219676015539E+02 138 13.662

B vs. n

Bvn, B10S30

Spectra

Shear 60

Column Density Map with Sinks (left) & Inverse Beta Maps (right)

Sink Notes:

  • The number of the sinks that form by the end of this simulate is 1.
  • Here is its position as seen down the barrel of the flow (see mass1 CDM plots) at final frame:
x-coordinate y-coordinate z-coordinate Frame first formed Time (Myr)
0.1041261309696830E+03 0.4905580044221398E+02 0.3609678184879078E+02 320 31.68

B vs. n

Bvn, B10S60

Spectra

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