In [23]:

    

t = np.linspace(0.0, 2.0 * np.pi, 360)
r = np.linspace(20,100,200)
rg, tg = np.meshgrid(r,t)
c = rg**2* np.cos(tg)


    

In [25]:

    

fig = figure(figsize=(8,8))
ax1 = fig.add_subplot(111, projection="polar", aspect=1.)
im = ax1.pcolormesh(t, r, c.T, edgecolors='None')
setp(ax1.get_xticklabels(), visible=False)
setp(ax1.get_yticklabels(), visible=False)
#setp(ax1.get_xaxis(), visible=False)
#setp(ax1.get_yaxis(), visible=False)
ax1.spines['polar'].set_visible(False)
fig.savefig('/Users/Benjamin/Dropbox/Zhu_Projects/Fine Structure Emission/Version 1/spherical_outflows.jpg')


    

In [22]:

    




    

    
Out[22]:





array([[   400.        ,    436.99906568,    475.63445368, ...,
         39279.65455418,  39639.00911593,  40000.        ],
       [   399.9387382 ,    436.93213731,    475.56160812, ...,
         39273.63869838,  39632.93822336,  39993.87382006],
       [   399.75497157,    436.73137269,    475.34309376, ...,
         39255.59297369,  39614.72740523,  39975.49715673],
       ..., 
       [   399.75497157,    436.73137269,    475.34309376, ...,
         39255.59297369,  39614.72740523,  39975.49715673],
       [   399.9387382 ,    436.93213731,    475.56160812, ...,
         39273.63869838,  39632.93822336,  39993.87382006],
       [   400.        ,    436.99906568,    475.63445368, ...,
         39279.65455418,  39639.00911593,  40000.        ]])

In [ ]: