The frequencies and shapes of the vibrational Raman lines, Ql(0) and Q l ( l ) , of solid hydrogen a t 2.1 'I< have been studied for a series of ortho-para rat~os, c,/c,. In the concentration range 0.75 > c, > 0.20 and 1.0 > c, > 0.25, each Q line has a single maximum, and can be interpreted in terms of traveling vibrational excitations. For c0 < 0.20 the Q l ( l ) line splits into a band of closely spaced lines; a t these low concentrations traveling ortho excitat~ons apparently cannot be sustained, and the components of the Ql(1) line represent various nearestneighbor couplings of ortho molecules. Some observations on the Sl(0) line were also made.
IKTRODUCTIONIn a n earlier investigation of the Raman spectrum of solid hydrogen (Bhatnagar et al. 1962) it was found that the frequency and half-width of the parahydrogen line, Ql(0) (v" = 0, Av = 1 ; J" = 0, AJ = 0), were not the same in normal hydrogen and in parahydrogen. The corresponding orthohydrogen line, Ql(1) (v" = 0, Av = 1 ; J" = 1 , AJ = 0), naturally did not appear in the spectrum of pure parahydrogen, but in the spectrum of normal hydrogen its frequency -\\as shifted further from the value for the low-density gas (Stoicheff 1957) than was that of Ql(0). I t was concluded that, if the changes in the frequencies and contours of these lines were followed through a series of samples of different ortho-para ratios, information concerning interactions involving ortho nlolecules could be obtained. The experiments described below were therefore undertaken. T h e Ql(0) and Q1(l) lines were studied in mixtures containing 25% t o 100% parahydrogen and the parahydrogen rotationvibrational line, Sl(0) (v" = 0 , Av = 1 ; J" = 0, AJ = 2), was studied in mixtures containing 70% to 100% parahydrogen. EXPERIMENTAL
