Changes between Version 37 and Version 38 of AstroBearProjects/MagnetizedClumps


Ignore:
Timestamp:
01/07/14 21:16:49 (11 years ago)
Author:
Shule Li
Comment:

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  • AstroBearProjects/MagnetizedClumps

    v37 v38  
    3838
    3939The image below shows the clump evolution when the uniform magnetic field is perpendicular to the shock direction.[[BR]][[BR]]
    40 [[Image(perpfield1.png, 30%)]][[BR]][[BR]]
     40[[Image(perpfield1.png,30%)]][[BR]][[BR]]
    41411. The magnetic field is stretched and wrapped around the clump, which effectively confines the clump and prevents its fragmentation, even for moderately strong field β = 4. The clump  [[BR]]
    4242embedded in the stretched field is compressed, but then, because of the strong confining effect of the field develops a streamlined profile and is not strongly eroded. [[BR]]
     
    4747aligned field case. [[BR]][[BR]]
    4848
    49 
    50 
    5149In AstroBEAR, the clump simulation is done using the clump object, the wind object and the cooling object. We also implement various multiphysics processes to make the situation [[BR]]
    5250more interesting. Below are snapshots of the clump density and magnetic pressure in a 3-D AMR simulation. Notice the field concentration at [[latex($\tau_{cc}$)]] is very different for [[BR]]
    5351the aligned and perpendicular field cases. [[BR]][[BR]]
    54 [[Image(comparisonamr.png, 40%)]][[BR]][[BR]]
     52[[Image(comparisonamr.png,40%)]][[BR]][[BR]]
    5553[http://http://www.pas.rochester.edu/~shuleli/clumpview/trial.gif Here is a movie of the mentioned simulation.][[BR]][[BR]]
    5654
    5755The following images show the high resolution shocked clump problem with uniform magnetic field in AMR. [[BR]][[BR]]
    58 [[Image(alignedstrong.png, 30%)]][[Image(perpweak.png, 30%)]][[Image(perpstrong.png, 30%)]][[BR]][[BR]]
     56[[Image(alignedstrong.png,30%)]][[Image(perpweak.png,30%)]][[Image(perpstrong.png,30%)]][[BR]][[BR]]
    5957
     58== Shock Clumps Interaction with Contained Magnetic Field ==
     59Here we study the shock interaction with the clump when the clump has tangled magnetic field contained. We focus on the following 4 cases:[[BR]]
     60[[Image(fig02_rev_color.png)]][[BR]][[BR]]
     61The contained magnetic field has a volume-average beta of 0.25. The volume rendered results for the four cases (the four columns for TA, TP, PA, PP cases, respectively). Each row corresponds to 1, 2 and 3.5 cloud crushing time.[[BR]]
     62[[Image(fig03_rev_color.png)]][[Image(fig04_rev_color.png)]][[Image(fig05_rev_color.png)]][[Image(fig06_rev_color.png)]][[BR]][[BR]]
     63Movies:[[BR]]
     64TA case:[[BR]]
     65http://www.pas.rochester.edu/~shuleli/HedlaMovie/torxvr.gif
     66[[BR]]
     67TP case:[[BR]]
     68http://www.pas.rochester.edu/~shuleli/HedlaMovie/torzvr.gif
     69[[BR]]
     70PA case:[[BR]]
     71http://www.pas.rochester.edu/~shuleli/HedlaMovie/polzvr.gif
     72[[BR]]
     73PP case:[[BR]]
     74http://www.pas.rochester.edu/~shuleli/HedlaMovie/polxvr.gif
     75[[BR]][[BR]]
     76The magnetic field intensity map is plotted as follows:[[BR]][[BR]]
     77[[Image(fig11_rev_bw.png,50%)]][[BR]][[BR]]
     78
     79The contained magnetic field geometry can influence the kinetic and magnetic energy evolution. As shown in the following plot:[[BR]][[BR]]
     80[[Image(fig12_rev_bw.png,50%)]][[BR]]
     81[[Image(fig13_rev_bw.png,50%)]][[BR]][[BR]]
     82The wind-clump mixing ratio can be affected also by the contained field geometry, as the toroidal contained field can enhance the clump edges to resist the instability erosion. [[BR]]
     83[[Image(fig14.png,50%)]][[BR]]
     84[[Image(fig15.png,50%)]][[BR]][[BR]]
     85
     86Mixing Ratio Evolution Movies:[[BR]]
     87Strong contained field (average beta of 0.25)[[BR]]
     88http://www.pas.rochester.edu/~shuleli/movie0703/mrst.gif
     89[[BR]][[BR]]
     90Weak contained field (average beta of 1)[[BR]]
     91http://www.pas.rochester.edu/~shuleli/movie0703/mrwk.gif
     92[[BR]][[BR]]
     93
     94The mathematical model that can qualitatively explain the line plots is available in the paper:[[BR]]
     95
     96[[BR]][[BR]]
    6097== Presentations ==
    6198
     
    67104http://arxiv.org/abs/0707.2616
    68105http://arxiv.org/abs/1003.5546
    69 
    70 
    71