The rotational and hyperfine spectrum of Ar–HF

The pure rotational spectra of seven isotopomers of hafnium monosulfide have been measured for several vibrational states. For the most abundant isotopomer, 180 Hf 32 S, the J = 1 -0, J = 2 -1, and J = 3 -2 transitions were recorded up to the sixth vibrationally excited state. The constants Y 01 , Y

Microwave spectra of Ar-28 SiH 4 , Ar-29 SiH 4 , Ar-30 SiH 4 , and Ar-28 SiD 4 were recorded using a pulsed molecular beam Fourier transform microwave spectrometer. The K ϭ 0 and K ϭ 1 components of the J ϭ 3 4 2 through the J ϭ 7 4 6 transitions were measured and assigned in the 9 -24 GHz region. F

State-to-state energy transfer cross sections for Ax + HF (u = 2,4, and 6; J = 4.6,8, and 10) were computed using quasi-classic31 trajectories. Rotationat energy transfer is invariant with increasing u, but gyration energy transfer is signi&antiy enhanced by increasing J.

Methyl carbamate, an isomer of glycine, is a possible candidate for interstellar detection. It might be more abundant than glycine and its dipole moment is much larger. Furthermore, using high-level quantum chemical calculations, it is shown that syn methyl carbamate has a lower energy than glycine.