Far-infrared spectrum of crystalline lysozyme

The far infrared spectrum of crystalline carbon disulphide has been measured at about 1.8 K. Two absorption bands are observed, with maxima at 66.5 and 68.2 cm-', respectively, and with nearly equal intensities. They are considered to be due to ?he two infrared active translational modes expected by

The absorption spectrum of SiHq from 32 to 400 cm -' has revealed two soparatc bar.ds, one linear in density and one quadratic. From the linex band, the electric dipole moment produced in the ground vibronic state by centrifugal distortion effects has been estimated to be 9.3 X lob6 D in magnitude.

We have measured the frequencies of 17 transitions in the far-infrared spectrum of the hydroperoxyl radical, \(\mathrm{HO}_{2}\), from 2.5 to \(5.9 \mathrm{THz}\), encompassing rotational levels up to \(N=19\) and \(K_{-1}\) \(=5\). These measured transition frequencies are combined with previously

We have measured the rotational spectrum of \(\mathrm{H}^{127} \mathrm{I}\) from 0.38 to \(4.58 \mathrm{THz}\left(13-153 \mathrm{~cm}^{-1}\right)\), encompassing the \(R(0)\) through \(R(11)\) rotational lines. using the \(\mathrm{CO}_{2}\) laser difference method for generating coherent far-infrare

Rotational transition frequencies of ArD ϩ were measured with an accuracy of a few hundred kilohertz in the 0.95-4.7 THz region, using a tunable far-infrared radiation source. Effective rotational parameters B, D, and H were determined for the ground vibrational state. The observed frequencies were