I think it is worth mentioning the option "minor_thresholds" introduced in matplotlib version 2.0 (docs link). It's a parameter in the form of a pair (subset, all) of the class LogFormatter that allows you to specify when a (fixed) subset of minor ticklabels should be shown and when all minor ticklabels should be shown (explanation of what this means is at the bottom).
In the following code I show the effect by using the same parameter values ((2, 0.4) in this case) but changing the limits of the x-axis:
import matplotlib.pyplot as plt
from matplotlib.ticker import LogFormatter
import numpy as np
fig, axes = plt.subplots(4, figsize=(12, 24))
dt = 0.01
t = np.arange(dt, 20.0, dt)
# first plot doesn't use a formatter
axes[0].semilogx(t, np.exp(-t / 5.0))
axes[0].set_xlim([0, 25])
axes[0].grid()
xlims = [[0, 25], [0.2, 8], [0.6, 0.9]]
for ax, xlim in zip(axes[1:], xlims):
ax.semilogx(t, np.exp(-t / 5.0))
formatter = LogFormatter(labelOnlyBase=False, minor_thresholds=(2, 0.4))
ax.get_xaxis().set_minor_formatter(formatter)
ax.set_xlim(xlim)
ax.grid()
plt.show()
This results in the following plot:
You see that in the second row the ticklabels are the same as in the first row where we didn't use a formatter. This is because the log of the view-range is more than 2 (the first value of the parameter pair) or to put it differently, the view spans a range that is bigger than a range between two major ticklabels. In the third row the view is smaller than 2 but bigger than 0.4 (the second value of the parameter pair), so we see a subset of the minor ticklabels. Finally, in the last row the view spans less than 0.4 of the space between two major ticklabels, so all minor ticklabels are shown.