Nuclear Quadrupole Coupling, Spin-Rotation, and Spin-Spin Interaction in the Rotational Spectrum of Ethinylisocyanide

The present paper reports the achievement of the rotating-frame analog of spin-locking and its application to the precise measurements of the spin-lattice relaxation time T(1DR) in the doubly rotating frame. After the magnetization is aligned along the resonant RF field H(1), a pulse sequence of a l

High-resolution Fourier transform microwave spectra of the unstable species ClPO 2 have been measured, and the P and Cl spin-rotation coupling constants have been determined from the resolved hyperfine splittings. These constants have been used to derive the absolute nuclear shielding parameters for

## Abstract We present calculations of indirect nuclear spin–spin coupling constants in large molecular systems, performed using density functional theory. Such calculations, which have become possible because of the use of linear‐scaling techniques in the evaluation of the Coulomb and exchange‐cor

The high-resolution pure rotational spectrum of GaF has been measured using a Balle-Flygare-type Fourier transform spectrometer. Improved nuclear quadrupolar coupling constants and rotational constants have been obtained along with the first reported fluorine spin-rotation constant for gallium fluor

The microwave spectrum of m-tolunitrile (3-methylbenzonitrile, m-C 6 H 4 CH 3 CN) has been investigated in the frequency range from 1 to 4 and 8 to 26.5 GHz. The spectra in the two lowest states of internal methyl rotation (m ϭ 0, Ϯ1) were recorded by means of pulsed molecular beam Fourier transform

Rotational transitions of \({ }^{28} \mathrm{SiF}_{2}\) and four isotopomers of \(\mathrm{GeF}_{2}\) have been investigated using a cavity pulsed microwave Fourier transform spectrometer. Both molecules were prepared in electric discharges, in \(\mathrm{SiF}_{4}\) and \(\mathrm{GeF}_{4}\), respectiv