Discovery of the cyclic C5H radical in TMC-1

Abstract

Cyclic C5H (c-C5H), the radical formed by substituting an ethynyl group CCH for the hydrogen atom in the c-C3H radical, has been detected for the first time in the space. The c-C5H species is an isomer of the well-known linear radical l-C5H and is 6 kcal mola 1 less stable. A total of 17 rotational transitions were detected for the c-C5H species in TMC-1 within the 31.0- 50.3 GHz range using the Yebes 40m radio telescope. We derive a column density of (9.0 ± 0.9) a-1010 cma 2 for c-C5H. Additionally, we observed 12 lines for l-C5H and derive a column density for it of (1.3 ± 0.3) a - 1012 cma 2, which results in an abundance ratio c-C5H/l-C5H of 0.069. This is in sharp contrast with the value found for the analogue system c-C3H/l-C3H, whose ratio is 5.5 in TMC-1. We discuss the formation of c-C5H and conclude that this radical is probably formed in the reaction of atomic carbon with diacetylene.