We present data of 10 penumbral microjets (PMJs) observed in H\alpha, Ca II
8542 \AA, and Fe I 6302 \AA line pair with the Swedish 1 m Solar Telescope
(SST) with CRISP and Ca II K with SST/CHROMIS in active region NOAA 12599 on
the 12th October 2016 at \mu=0.68. All four Stokes parameters of the Ca II 8542
\AA and Fe I 6302 \AA lines were observed and a series of test pixels was
inverted using the Stockholm inversion code. Our analysis revealed for the
first time that PMJs are visible in H\alpha, where they appear as dark features
with average line-of-sight (LOS) upflows of 1.1\pm0.6 km/s, matching the LOS
velocities from the inversions. Based on the H\alpha observations we extend the
previous average length and lifetime of PMJs to 2815\pm530 km and 163\pm25 s,
respectively. The plane-of-sky (POS) velocities of our PMJs of up to 17 km/s
tend to give increased velocities with distance travelled. Furthermore, two of
our PMJs with significant Stokes V signal indicate that the PMJs possess an
increased LOS magnetic field of up to 100 G compared to the local pre-/post-
PMJ magnetic field, which propagates as quickly as the PMJs' POS velocities.
Finally, we present evidence that PMJs display an on average 1 minute gradual
precursory brightening that only manifests itself in the cores of the Ca II
lines. We conclude that PMJs are not ordinary jets but likely are
manifestations of heat fronts that propagate at the local Alfven velocity
