Frequency measurement of pure rotational transitions of H2O from 0.5 to 5 THz

Frequencies of pure rotational transitions of D 2 O were measured in the region 0.5-5 THz with a high-precision far-infrared spectrometer using a tunable radiation source. Measured frequencies of about 150 spectral lines, 30 of them being newly measured lines, provide an excellent frequency standard

Frequencies of pure rotational transitions of isotopic species of water, H217O, and H218O were measured in the 1-5 THz region with a high-precision far-infrared spectrometer using a tunable radiation source. Measured frequencies of more than 100 spectral lines for each species provide an excellent f

Frequencies of \(445 \mathrm{CH}_{3} \mathrm{OH}\) rotational transitions between 1.5 and \(6.5 \mathrm{THz}\) have been measured with an accuracy of one part in \(10^{9}\). The far-infrared radiation used for the measurements was generated from the radiation of two \(\mathrm{CO}_{2}\) lasers using

Values of the second virial coefficient B of benzene and cyclohexane have been obtained from measurements of the excess molar enthalpy H E m of {yN2 + (1y)C6H6} and {yN2+(1-y)C6H12} measured at standard atmospheric pressure over the temperature range 333.2 to 433.2 K. In a hypothetical mixture of an