Rotational Spectrum and Hyperfine Structure of 13CCH and C13CH

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.

The bond polarizability theory was employed in predicting the Raman intensities of CH 3 CCH, CH 3 CCD, and by transferring polarizability parameters from ethane and acetylene. CD 3 CCH, CD 3 CCD 12CH 3 13C 13CH Good agreement between the observed and predicted spectra of was obtained. The e †ect of

We present three experiments which serve to identify carbon and proton sidechain resonances in 13 C-labeled proteins. The first is an improvement on the previously published H(C)CH-COSY experiment and comprises the application of gradients for coherence selection and a reduction in the phase cycle.

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 ground state rotational spectra of HCP, H 13 CP, DCP, and D 13 CP have been measured in the millimeter-wave and submillimeter-wave ranges. For HCP and DCP, the rotational spectra in the vibrationally excited states £ 2 Å 1, 2 and £ 3 Å 1 have also been analyzed. The equilibrium structure has bee