CO J=3-2 EMISSION IN THE RADIO GALAXY 53W002 AT Z=2.394

We report a sensitive search for redshifted CO J = 3-2 emission from t he weak radio galaxy 53W002 at z = 2.394. Maps at resolutions of 3 '' and 235 km s(-1) show a significant emission peak within 0.'' 5 of the optical and radio continuum peaks. The measured narrowband flux is ap proximately 10 times the extrapolated centimeter-wavelength nonthermal radio continuum expected at 101.9 GHz and exhibits a spectral profile implying a 540 km s(-1) width (FWHM) at a systemic redshift z = 2.394 +/- 0.001 for CO (3-2). This emission has a total integrated flux of 1.51 +/- 0.2 Jy km s(-1), approximately 4 times weaker than that previ ously seen in the lensed systems FSC 10214 + 4724 and the Cloverleaf Q SO. For a Galactic CO-to-H-2 conversion ratio, the implied molecular g as mass is 7.4 x 10(10) M. (H-0 = 75 km s(-1) Mpc(-1) and q(0) = 0.5). The CO emission is elongated at P. A. = 120 degrees with a deconvolve d major-axis radius of 15 kpc (2.'' 8). This extension is along a simi lar direction to that seen in the centimeter-wave radio continuum and in the optical, but approximately 3 times larger. A velocity gradient is seen along the major axis, and if this structure is a (forming) dis k, the implied dynamical mass is (9-22) x 10(10) M. at r less than or equal to 15 kpc, assuming inclination i = 0 degrees (edge-on). The mag nitude of these masses and the similarity of the high gas-mass fractio n are consistent with the host galaxy of 53W002 being a young galactic system but the metallicity (probably greater than or equal to 0.1 Z. in order to produce the CO lines) implies significant heavy-element pr oduction prior to z = 2.4. This constitutes the first high redshift mo lecular gas detected in emission where there is probably no gravitatio nal magnification.