The existence and origin of large spatial temperature fluctuations in HII
regions and planetary nebulae are assumed to explain the differences between
the heavy element abundances inferred from collisionally excited and
recombination lines, although this interpretation remains significantly
controversial. We investigate the spatial variation in electron temperature
inside NGC 346, the brightest HII region in the Small Magellanic Cloud. Long
slit spectrophotometric data of high signal-to-noise were employed to derive
the electron temperature from measurements derived from localized observations
of the [OIII](λ4959+λ5007)/λ4363 ratio in three
directions across the nebula. The electron temperature was estimated in 179
areas of 5′′×1.5′′ of size distributed along
three different declinations. A largely homogeneous temperature distribution
was found with a mean temperature of 12 269 K and a dispersion of 6.1%. After
correcting for pure measurements errors, a temperature fluctuation on the plane
of the sky of ts2=0.0021 (corresponding to a dispersion of 4.5%)
was obtained, which indicates a 3D temperature fluctuation parameter of t2≈0.008. A large scale gradient in temperature of the order of
−5.7±1.3 K arcsec−1 was found. The magnitude of the temperature
fluctuations observed agrees with the large scale variations in temperature
predicted by standard photoionization models, but is too small to explain the
abundance discrepancy problem. However, the possible existence of small spatial
scale temperature variations is not excluded.Comment: 6 pages, 5 figures, 2 table