Radiative cooling of cationic carbon clusters, CN+, N = 8, 10, 13-16

F. Q. Chen; N. Kono; R. Suzuki; T. Furukawa; H. Tanuma; P. Ferrari; T. Azuma; J. Matsumoto; H. Shiromaru; V. Zhaunerchyk; K. Hansen

Journal ArticleOPEN ACCESS

Radiative cooling of cationic carbon clusters, CN+, N = 8, 10, 13-16

Chen F
Kono N
Suzuki R
et al.

Physical Chemistry Chemical Physics (2019) 21(3) 1587-1596

DOI: 10.1039/c8cp06368k

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Abstract

The radiative cooling of highly excited carbon cluster cations of sizes N = 8, 10, 13-16 has been studied in an electrostatic storage ring. The cooling rate constants vary with cluster size from a maximum at N = 8 of 2.6 × 104 s-1 and a minimum at N = 13 of 4.4 × 103 s-1. The high rates indicate that photon emission takes place from electronically excited ions, providing a strong stabilizing cooling of the molecules.

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Chen, F. Q., Kono, N., Suzuki, R., Furukawa, T., Tanuma, H., Ferrari, P., … Hansen, K. (2019). Radiative cooling of cationic carbon clusters, CN+, N = 8, 10, 13-16. Physical Chemistry Chemical Physics, 21(3), 1587–1596. https://doi.org/10.1039/c8cp06368k

Radiative cooling of cationic carbon clusters, CN+, N = 8, 10, 13-16

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