For your first question, you can either increase the number of ticks, which doesn't seem to be what you want if you wish for minor ticks, or you can manually generate the ticks yourself. To do this you will need to use the polar axes own plot facilities to plot these ticks ie:

```
ax.plot([theta_start, theta_end], [radius_start, radius_end], kwargs**)
```

You'll need to figure out the interval you want these ticks, and then tick them manually with a function like the one below.

```
def minor_tick_gen(polar_axes, tick_depth, tick_degree_interval, **kwargs):
for theta in np.deg2rad(range(0, 360, tick_degree_interval)):
polar_axes.plot([theta, theta], [polar_axes.get_rmax(), polar_axes.get_rmax()-tick_depth], **kwargs)
```

which you can then call like this:

```
minor_tick_gen(ax, 0.25, 20, color = "black")
```

Its kind of difficult to find, but polar axis are not normal axes, but Polar Axis class instances. In the documentation you can use `set_ylim(min, max)`

which will allow you to move the labels off of the line, however this will rescale the entire graph. Going outside of the graph bounds will require developer knowledge of the framework, because matplotlib does not expose this functionality to you. Using `set_rgrids(...)`

for example, even with a position component will not affect the relative label positioning.

Putting these things together, you can use the following code:

```
import numpy as np
import matplotlib.pyplot as plt
import matplotlib.ticker as ticker
import math
def minor_tick_gen(polar_axes, tick_depth, tick_degree_interval, **kwargs):
for theta in np.deg2rad(range(0, 360, tick_degree_interval)):
polar_axes.plot([theta, theta], [polar_axes.get_rmax(), polar_axes.get_rmax()-tick_depth], **kwargs)
def radian_function(x, y =None):
rad_x = x/math.pi
return "{}π".format(str(rad_x if rad_x % 1 else int(rad_x)))
ax = plt.subplot(111, projection='polar')
ax.set_rmax(2)
ax.set_rticks([3*math.pi, 6*math.pi, 9*math.pi, 12*math.pi])
ax.set_rlabel_position(112.5)
# go slightly beyond max value for ticks to solve second problem
ax.set_ylim(0, 13*math.pi)
ax.grid(True)
# generate ticks for first problem
minor_tick_gen(ax, math.pi, 20, color = "black", lw = 0.5)
ax.set_title("Polar axis label minor tick example", va='bottom')
ax.yaxis.set_major_formatter(ticker.FuncFormatter(radian_function))
ax.xaxis.set_major_formatter(ticker.FuncFormatter(radian_function))
plt.show()
```

to get the following image