Hi! I think that there might be something strange going on with your field definition, but it's also entirely possible that I'm misinterpreting. The way you have it set up, I *think* that the results of the derived field (gas, elec_den) will always have the same shape as your all_data_level_max. I believe what you may want to do is change your field definition to use data['gas','density'] instead. Additionally, can you try: cutout_obj['index','ones'] and comparing the shape of that to the others? If that shape is correct then we can narrow it down to the way elec_den is defined. Thanks, Matt On Sun, Jan 31, 2021 at 8:41 AM Salome Mtchedlidze <salomchedlidze@gmail.com> wrote:
Hello!
I want to create 3D field within a spherical object. For example, I create 3D electron density in the following manner:
ds = yt.load("DATA") dd = ds.all_data()
max_level = ds.index.max_level ref = 2**max_level low = ds.domain_left_edge dims = ds.domain_dimensions*ref nx, ny, nz = dims L = (ds.domain_right_edge - ds.domain_left_edge).d all_data_level_max = ds.covering_grid(level=max_level,left_edge=low,dims=dims)
def _elec_den(field,data): N_A = 1/1.6726219e-24 X = 0.70 return ((all_data_level_max['gas','density'])*N_A*(1+X)/2/ds.quan(1,'g') ) ds.add_field(('gas','elec_den'), function=_elec_den, units='auto', dimensions=dimensions.number_density)
Then if I do: dd['elec_den'] it will give me a 3D field which will have the same dimensions as the root grid of the dataset. However, if I create spheres and then a spherical object between these two spheres:
rvir = 4.2454307068129566e+24 #virial radius of a halo [cm]. xyz = [0.4208984375, 0.2216796875, 0.5185546875] #centre of a halo. sph1 = ds.sphere(xyz, (2*rvir, 'cm')) sph2 = ds.sphere(xyz, (4*rvir, 'cm')) cutout_obj = sph2 - sph1
cutout_obj['elec_den'] or sph1['elec_den'] and sph2['elec_den'] will have the same dimensions as dd['elec_den'] ; but this cannot be true since sph1 and sph2 include less grid points. Is there a way I can create 3D field and use it within a different yt objects?
Thanks, Salome _______________________________________________ yt-users mailing list -- yt-users@python.org To unsubscribe send an email to yt-users-leave@python.org https://mail.python.org/mailman3/lists/yt-users.python.org/ Member address: matthewturk@gmail.com