Jun-He Du scite author profile

Complicated high-resolution spectral structures are often observed for molecules doped in solid molecular hydrogen. The structures can result from miscellaneous effects and are often interpreted differently in references. The spectrum of the ν(3) band of CO(2) in solid para-H(2) presents a model system which exhibits rich spectral structures. With the help of the potential energy simulation of the CO(2) molecule doped in para-hydrogen matrix, and extensive experiments with different CO(2) isotopologues and different ortho-hydrogen concentrations in the matrix, the spectral features observed in p-H(2) matrix are assigned to the CO(2)···(o-H(2))(n) clusters and also to energy level splitting that is due to different alignments of the doped CO(2) molecules in the matrix. The assignments are further supported by the dynamics analysis and also by the spectrum recorded with sample codoped with O(2) which serves as catalyst transferring o-H(2) to p-H(2) in the matrix at 4 K temperature. The observed spectral features of CO(2)/pH(2) can potentially be used as an alternative readout of the temperature and orthohydrogen concentration in the solid para-hydrogen.

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On the vibrations of N2O trapped in solid para-hydrogen

Wan

et al. 2009

Vibrational Spectroscopy

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Jun-He Du

High-resolution Fourier-transform spectroscopy of 18O-enriched water molecule in the 1080–7800cm−1 region

CO₂ in Solid Para-Hydrogen: Spectral Splitting and the CO₂···(o-H₂)_n Clusters

On the vibrations of N2O trapped in solid para-hydrogen

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Jun-He Du

High-resolution Fourier-transform spectroscopy of 18O-enriched water molecule in the 1080–7800cm−1 region

CO2 in Solid Para-Hydrogen: Spectral Splitting and the CO2···(o-H2)n Clusters

On the vibrations of N2O trapped in solid para-hydrogen

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Product

Resources

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CO₂ in Solid Para-Hydrogen: Spectral Splitting and the CO₂···(o-H₂)_n Clusters