15min:

MICHAEL C. MCCARTHY, J.-U. GRABOW, M. J. TRAVERS, W. CHEN, C. A. GOTTLIEB AND P. THADDEUS, Harvard-Smithsonian Center for Astrophysics and Division of Engineering and Applied Sciences, Cambridge, MA 02138.

The linear cyanopolyynes HC₁₅N and HC₁₇N were detected in the laboratory by Fourier-transform microwave spectroscopy. Enough rotational lines of each species were measured in the 5-11~GHz frequency range so that precise values for the rotational and centrifugal distortion constants can be determined and the entire rotational spectra of both molecules predicted to high accuracy (i.e., better than 1~km~s^-1 in equivalent radial velocity). Although there is a nearly constant decrement in line intensity from HC₃N to HC₉N of about seven, the decrement decreases by at least a factor of two on reaching HC₁₇N. As a result the lines of HC₁₇N are nearly an order of magnitude stronger than predicted by extrapolation from the shorter cyanopolyynes.