def zf_shear_film(run, should_normalize):
"""
Make film of zonal flow velocity as a function of x and t.
"""
run.calculate_zf_shear()
plot_options = {}
options = {'file_name':'zf_shear',
'film_dir':run.run_dir + 'analysis/moments',
'frame_dir':run.run_dir + 'analysis/moments/film_frames',
'xlabel':r'$R (m)$',
'ylabel':r"$v'_{ZF} / v_{th,i}$",
'bbox_inches':'tight',
'fps':30}
options['title'] = []
for it in range(run.nt):
options['title'].append(r'Time = {0:04d} $\mu s$'.format(
int(np.round((run.t[it]-run.t[0])*1e6))))
pf.make_film_1d(run.r, run.zf_shear, plot_options=plot_options,
options=options)
run.v_zf = None
gc.collect()
def radial_heat_flux_film(run, should_normalize):
"""
Make film of the radial heat flux.
"""
run.calculate_q()
run.q_rad = np.mean(run.q, axis=2)
plot_options = {}
options = {'file_name':'q_i_rad',
'film_dir':run.run_dir + 'analysis/moments',
'frame_dir':run.run_dir + 'analysis/moments/film_frames',
'xlabel':r'$R (m)$',
'ylabel':r'$\left<Q_{i}(x)\right>_y / Q_{gB}$',
'ylim':0,
'bbox_inches':'tight',
'fps':30}
options['title'] = []
for it in range(run.nt):
options['title'].append(r'Time = {0:04d} $\mu s$'.format(
int(np.round((run.t[it]-run.t[0])*1e6))))
pf.make_film_1d(run.r, run.q_rad, plot_options=plot_options,
options=options)
run.q = None
run.q_rad = None
gc.collect()