Journal
ASTRONOMY & ASTROPHYSICS
Volume 440, Issue 3, Pages 893-899Publisher
EDP SCIENCES S A
DOI: 10.1051/0004-6361:20052816
Keywords
galaxies : abundances; galaxies : ISM; quasars : individual : B0218+357; quasars : absorption lines; radio lines : galaxies
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Using the Effelsberg 100-m telescope, absorption in the (J, K) = ( 1, 1), ( 2, 2) and ( 3, 3) inversion lines of ammonia (NH3) was detected at a redshift of z = 0.6847 toward the gravitational lens system B0218 + 357. The lambda similar to 2 cm absorption peaks at 0.5 - 1.0% of the continuum level and appears to cover a smaller fraction of the radio continuum background than lines at millimeter wavelengths. Measured intensities are consistent with a rotation temperature of similar to 35K, corresponding to a kinetic temperature of similar to 55 K. The column density toward the core of image A then becomes N(NH3) similar to 1 x 10(14) cm(-2) and fractional abundance and gas density are of order X(NH3) similar to 10(-8) and n(H-2) similar to 5 x 10(3) cm(-3), respectively. Upper limits are reported for the ( 2, 1) and ( 4, 4) lines of NH3 and for transitions of the SO, DCN, OCS, SiO, C3N, H2CO, SiC2, HC3N, HC5N, and CH3OH molecules. These limits and the kinetic temperature indicate that the absorption lines are not arising from a cold dark cloud but from a warm, diffuse, predominantly molecular medium. The physical parameters of the absorbing molecular complex, seen at a projected distance of similar to 2 kpc to the center of the lensing galaxy, are quite peculiar when compared with the properties of clouds in the Galaxy or in nearby extragalactic systems.
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