Millimeter and Submillimeter Spectroscopy of NO35Cl: J Dependence of N2 and O2 Broadenings

The nitrogen and oxygen broadening coefficients of ozone have been experimentally obtained at two low temperatures (227 and 186 K) in the n 1 / n 3 band, located at 2110 cm 01 . Thirty-five transitions have been chosen to derive the n coefficient defined by a(T ) Å a(T o )r(T o /T ) n . This is foun

For the purpose of atmospheric applications, the collisional relaxation of the J = 5.5 ← 4.5 rotational line of 14 NO (551.53 GHz) has been investigated in the 235 to 345-K temperature range. Experiments were performed with N 2 and O 2 as buffer gases, which allow the derivation of the air-induced b

The intermolecular potential derived by Leavitt from irreducible tensor methods is used in a semiclassical impact theory to calculate the \(\mathrm{O}_{2^{-}}\)and \(\mathrm{N}_{2}\)-broadening coefficients of the \({ }^{q} P(J, K)\) and \({ }^{9} R(J, K)\) lines belonging to a parallel band of \(\m

Absorption linewidths associated with microwave transitions across -doublets and pure rotational transitions of the free hydroxyl radical OH perturbed by N 2 , O 2 , and Ar are computed for temperatures ranging from 194 to 300 K within the framework of the Robert-Bonamy semiclassical formalism using

The collisional relaxation of the J = 5 ← 4 rotational transition of CO induced by carbon monoxide, nitrogen, and oxygen has been studied at room temperature. Pressure-broadening parameters were determined as 3.29(2), 2.61(2), and 2.30(2) MHz/Torr for CO, N 2 , and O 2 buffer gases, respectively. Ex