The microwave rotational spectrum of the van der Waals complex Kr–N2

Abstract

Pure rotational transitions in the vibrational ground state of the van der Waals complex Kr–N₂ have been measured using a cavity microwave Fourier transform spectrometer. For the isotopomers ⁸⁴Kr–¹⁴N₂, ⁸⁶Kr–¹⁴N₂, ⁸⁴Kr–¹⁵N₂, ⁸⁶Kr–¹⁵N₂, ⁸²Kr–¹⁵N₂, and ⁸³Kr–¹⁵N₂ a‐type transitions with K_a=0 and 1 have been measured, confirming a C_2v symmetry of the complex. A value for the ¹⁴N nuclear quadrupole coupling constant in free nitrogen ¹⁴N₂ has been estimated from an analysis of the nuclear hyperfine structure in complexes of ¹⁴N₂. ¹⁵N spin–rotation hyperfine structure could be observed and analyzed in the 2_1,2–1_1,1 and 2_1,1–1_1,0 rotational transitions of ⁸⁴Kr–¹⁵N₂. Rotational transitions of ⁸³Kr–¹⁵N₂ showed a nuclear hyperfine splitting due to ⁸³Kr with nuclear spin 9/2 which has been attributed to the weak bonding with ¹⁵N₂. For ⁸⁴Kr–¹⁴N¹⁵N and ⁸⁶Kr–¹⁴N¹⁵N, only transitions involving energy levels with K_a=0 have been found.