B. Brandl et al., ADAPTIVE OPTICS NEAR-INFRARED IMAGING OF R136 IN 30-DORADUS - THE STELLAR POPULATION OF A NEARBY STARBURST, The Astrophysical journal, 466(1), 1996, pp. 254
We report 0''.15 resolution near-infrared (NIR) imaging of R136, the c
entral region of 30 Doradus in the large Magellanic Cloud. Our 12''.8
x 12''.8 images were recorded with the MPE camera SHARP II at the 3.6
m ESO telescope, using the adaptive optics system COME ON+. The high s
patial resolution and sensitivity (20th magnitude in K) of our observa
tions allow our H- and K-band images to be compared and combined with
recent Hubble Space Telescope (HST) WFPC2 data of R136. We fit theoret
ical models with variable foreground extinction to the observed magnit
udes of similar to 1000 stars (roughly half of which were detected in
HST and NIR bands) and derive the stellar population in this starburst
region. We find no red giants or supergiants; however, we detect simi
lar to 110 extremely red sources which are probably young, pre-main-se
quence low- or intermediate-mass stars. We obtained narrow-band images
to identify known and new Wolf-Rayet stars by their He II (2.189 mu m
) and Br gamma (2.166 mu m) emission lines. The presence of W-R stars
and absence of red supergiants narrow the cluster age to 3-5 Myr, whil
e the derived ratio of W-R to O stars of 0.05 in the central region fa
vors an age of similar to 3.5 Myr, with a relatively short starburst d
uration. For the O stars, the core radius is found to be 0.1 pc and ap
pears to decrease with increasing stellar mass. The slope of the mass
function function is Gamma = -1.6 on average, but it steepens with inc
reasing distance from the cluster center from Gamma = -1.3 in the inne
r 0.4 pc to Gamma = -2.2 outside 0.8 pc for stars more massive than 12
M.. The radial variation of the mass function reveals strong mass seg
regation that is probably due to the cluster's dynamical evolution.