Ortho-para hydrogen conversion kinetics has been measured in the stoichiometric Ar(H2)2 compound, at pressures from 3 to 35 GPa, from the intensity of the rotational Raman transitions. The conversion rate increases with pressure by almost a factor 50 in the investigated pressure range. A comparison is made with pure hydrogen, where a similar increase is also observed. For long times and low ortho concentration, the conversion kinetic deviates from the law derived for uniform distribution of the ortho-hydrogen molecules in the crystal. The magnitude of this effect, due to the limited diffusion rate of the hydrogen molecules in the crystal, allows the measurement of the diffusion coefficient.
Ortho- to Para-Hydrogen Conversion and Molecular Diffusion in the High Pressure Compound Ar(H2)2
Grazzi F;Ulivi L
2002
Abstract
Ortho-para hydrogen conversion kinetics has been measured in the stoichiometric Ar(H2)2 compound, at pressures from 3 to 35 GPa, from the intensity of the rotational Raman transitions. The conversion rate increases with pressure by almost a factor 50 in the investigated pressure range. A comparison is made with pure hydrogen, where a similar increase is also observed. For long times and low ortho concentration, the conversion kinetic deviates from the law derived for uniform distribution of the ortho-hydrogen molecules in the crystal. The magnitude of this effect, due to the limited diffusion rate of the hydrogen molecules in the crystal, allows the measurement of the diffusion coefficient.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
