CONSTRAINING THE MOLECULAR GAS-RESERVOIR ASSOCIATED WITH THE PROTOGALAXY CANDIDATE MS1512-CB58

We report on sensitive searches for molecular CO(3-2) emission from th e recently discovered protogalaxy candidate MS1512-cB58 (cB58) at a re dshift of z = 2.72. The rest-frame UV light from cB58 indicates that a large burst of star formation (M(stars) similar to 4 x 10(10)h(75)(-2 )M.) has occurred within less than 10(8) yr. The limit on the CO line intensity is S(CO) < 0.38 Jy km s(-1) which corresponds to a molecular gas mass of M(H-2) < 2.7 x 10(10)h(75)(-2)M. (q(0) = 0.5), assuming t he Galactic CO to H-2 conversion factor. Although it is still uncertai n whether cB58 is significantly gravitationally lensed by a foreground cluster at z = 0.37, the ratio of the UV luminosity to the CO luminos ity may be nearly independent of lensing since the UV light appears to be extended. Assuming similar lensing magnification factors for both the UV and CO emission, we find the L(lambda)(UV)/L'(CO) luminosity ra tio for cB58 is at least 20 times larger than that for typical nearby starburst galaxies, The high L(lambda)(UV)/L'(CO) ratio for cB58 may b e indicative of a low metallicity and an IMF biased toward massive sta r formation or an intrinsically high star-formation efficiency. We als o find that the system has consumed a significant fraction of its gas (M(gas)/M(total) < 0.8), and the gas which has not already formed star s may be ejected by supernova-driven winds. (C) 1997 American Astronom ical Society.