The fragmentation functions for gluons to split into P-wave heavy quar
konium states are calculated to leading order in the QCD coupling cons
tant. Long-distance effects are factored into two nonperturbative para
meters: the derivative of the radial wave function at the origin and a
second parameter related to the probability for a heavy-quark-antiqua
rk pair that is produced in a color-octet S-wave state to form a color
-singlet P-wave bound state. The fragmentation probabilities for a hig
h transverse momentum gluon to split into the P-wave charmonium states
chi(c0), chi(c1), and chi(c2) are estimated to be 0.4 x 10(-4), 1.8 x
10(-4), and 2.4 x 10(-4), respectively. This fragmentation process ma
y account for a significant fraction of the rate for the inclusive pro
duction of chi(cJ) at large transverse momentum in pp $($) over bar$$
colliders.