Publications -R-
  • Rabinovich, V.A., Equation of state for deuterium (in Russian). Inzh.-Fiz. Zh., 1960. 3(6): p. 107-11.
  • Rabinovich, V.A., Analysis of experimental thermal values and equation of state for hydrogen. 1962: Foreign Technol. Div., Transl. FTD-TT-62-1569, 12 pp.
  • Rabinovich, V.A., On the calculation of thermodynamic properties of deuterium (in Russian). Inzh.-Fiz. Zh., 1963. 6(4): p. 118-22.
  • 1604. Rabinovich, V.A., Thermodynamic properties of hydrogen at high temperatures (in Russian). Teplofiz. Teplotekh., 1964: p. 258-63.
  • 1605. Rabinovich, I.B. and V.G. Tsvetkov, The effect of substitution of deuterium for hydrogen on the energy of chemical bonds. Dokl. Chem. (Engl. Transl.), 1969. 188(1): p. 722-4.
  • Rabinovich, V.A., L.M. Burshtein, and H.M. Akulova, Thermodynamic properties of solid parahydrogen in the temperature range 0-25 K and pressures 1-500 bar (in Russian). Teplofiz. Svoistva Veshchestv Nizk. Temp., Mater. Vses. Soveshch., 1972: p. 31-9.
  • Rabinovich, V.A., L.M. Burshtein, and N.M. Akulova, Thermodynamic properties of solid parahydrogen in the range of temperature 0-26 degrees K and pressures of 1-500 bar (in Russian). Teplofiz. Svoistva Veshchestv Mater., 1973. 6: p. 16-44.
  • Rabitz, H. and S.-H. Lam, Rotational energy relaxation in molecular hydrogen. J. Chem. Phys., 1975. 63(8): p. 3532-42.
  • Radhakrishnan, K., et al., Solubility of hydrogen in methanol, nitrobenzene, and their mixtures. Experimental data and correlation. J. Chem. Eng. Data, 1983. 28: p. 1-4.
  • Rahman, A., Polarizability of the hydrogen molecular-ion. Physica (Amsterdam), 1953. 29: p. 145-65.
  • Raich, J.C. and R.D. Etters, Elementary excitations in fcc solid ortho-hydrogen. 1968: Douglas Adv. Res. Lab., Res. Commun. 54, 65 pp.
  • Raich, J.C. and R.D. Etters, On the phase transition in solid hydrogen. J. Phys. Chem. Solids, 1968. 29(9): p. 1561-8.
  • Raich, J.C. and R.D. Etters, The effect of short-range order on the phase transition in solid hydrogen. Nuovo Cimento, Ser. B, 1968. 57(1): p. 224-8.
  • Raich, J.C. and R.D. Etters, On the order of the phase transition in solid ortho-hydrogen. Solid State Commun., 1969. 7(15): p. 1031-4.
  • Raich, J.C., A.B. Anderson, and W. England, The anisotropic interaction between hydrogen molecules. J. Chem. Phys., 1976. 64(12): p. 5088-94.
  • Raich, J.C. and K. Albert, Local strain effects for isolated pairs of ortho-H(2) molecules in para hydrogen. Solid State Commun., 1979. 30(3): p. 125-8.
  • Raidy, T.E. and F.R. McCourt, Kinetic theory-memory equation approach to nuclear magnetic relaxation in molecular gases. Hydrogen binary mixtures. Chem. Phys. Lett., 1976. 38(2): p. 300-5.
  • Ramaker, D.E., L. Kumar, and F.E. Harris, Exact-exchange crystal Hartree-Fock calculations of molecular and metallic hydrogen and their transitions. Phys. Rev. Lett., 1975. 34(13): p. 812-4.
  • Raman, S., K. Srinivasa, and K.P. Joseph, Anomalous Behavior of the Thermal-Conductivity of Hydrogen-Helium Mixture. Indian Journal of Pure & Applied Physics, 1990. 28(4): p. 171-173.
  • Ramanujam, S., S. Leipziger, and S.A. Weil, Vapor-liquid equilibrium for a hydrogen/simulated coal-derived liquid system. Ind. Eng. Chem. Process Des. Dev., 1985. 24: p. 364-8.
  • Randelman, R.E. and L.A. Wenzel, Joule-Thomson coefficients of hydrogen and methane mixtures. J. Chem. Eng. Data, 1988. 33(3): p. 293-9.
  • Rankine, A.O. and C.J. Smith, On the viscosities and molecular dimensions of methane, sulphuretted hydrogen, and cyanogen. Philos. Mag., 1921. 42(251): p. 615-20.
  • Rao, M.R., N. Wakao, and J.M. Smith, Diffusion and reaction rates in the ortho-hydrogen conversion. Ind. Eng. Chem. Fundam., 1964. 3(2): p. 127-31.
  • Rao, B.K., D. Ikenberry, and T.P. Das, Hyperfine pressure shift and van der Waals interaction. IV. Hydrogen-rare-gas systems. Phys. Rev. A, 1970. 2(4): p. 1411-21.
  • Rao, R.V.G. and K.N. Swamy, Transport properties of liquid carbon monoxide and hydrogen cyanide from significant structure theory. Z. Phys. Chem. (Leipzig), 1974. 255(2): p. 299-304.
  • Rapial, A.S. and D.E. Daney, Preparation and characterization of slush hydrogen and nitrogen gels. 1969: Natl. Bur. Stand., Tech. Note 378, 44 pp.
  • Rawuka, A.C. and C.G. Yundt, Thermal conductivity of wet wall liquid hydrogen storage tank insulations for space applications. 1965: AIChE Natl. Meet., 56th (Paper 22d), 12 pp.
  • Rawuka, A.C. and C.G. Yundt, Thermal conductivity of wet-wall liquid hydrogen storage tank insulations for space applications. Chem. Eng. Prog., Symp. Ser., 1966. 62(61): p. 219-24.
  • Raynes, W.T., et al., A note on the magnetic susceptibility of hydrogen and its isotopomers. Chem. Phys. Lett., 1974. 24(1): p. 139-45.
  • Razhba, Y.E., et al., Saturated vapor pressures of equilibrium hydrogen and oxygen below the normal boiling temperature (in Russian). Teplofiz. Svoistva Veshchestv Mater., 1973. 7: p. 5-12.
  • Reamer, H.H. and B.H. Sage, Phase behavior in the hydrogen-ammonia system. J. Chem. Eng. Data, 1959. 4(2): p. 152-4.
  • Reddy, S.P., A. Sen, and R.D.G. Prasad, Hexadecapolar U-branch transitions in the infrared fundamental band of gaseous hydrogen at 77 K. J. Chem. Phys., 1980. 72(11): p. 6102-6.
  • Reed, R.D. and D. Henderson, Velocity of sound in liquid hydrogen at low pressures. Aust. J. Chem., 1964. 17: p. 705-6.
  • Reed, R.D., D. Henderson, and R.-Y. Chen, Isotopic effects in liquid hydrogen. J. Chem. Phys., 1965. 43: p. 1836-8.
  • Reid, R.V., Jr., Nuclear magnetic shielding in the hydrogen molecule. Phys. Rev. A, 1975. 11(2): p. 403-8.
  • Reif, F. and E.M. Purcell, Nuclear magnetic resonance in solid hydrogen. Phys. Rev., 1953. 91(3): p. 631-41.
  • Reilly, J.J., et al., Metal hydrides as hydrogen storage media. A summary with appendix. 1974: Brookhaven Natl. Lab., Paper BNL-18887, 23 pp.
  • Reinholz, H., R. Redmer, and S. Nagel, Thermodynamic and Transport-Properties of Dense Hydrogen Plasmas. Physical Review E, 1995. 52(5): p. 5368-5386.
  • Reinsch, E.-A., The theory of the catalytic conversion of parahydrogen by organic radicals. Mol. Phys., 1974. 28(3): p. 683-94.
  • Reuss, J., Beenakker, J. J. M., Determination of the second virial coefficients b(12) of gas mixtures, Physica (Amsterdam), 1956, 22: p. 869-79.
  • Reynolds, C.L., Jr. and A.C. Anderson, Thermal resistivity of solid hydrogen or deuterium at high ortho or para concentrations. Phys. Rev. B, 1980. 22(11): p. 5547-8.
  • Rhodes, J.E., Jr., Dispersion of the velocity of sound in normal and para-hydrogen. Phys. Rev., 1946. 70: p. 91.
  • Rhodes, J.E., Jr., The velocity of sound in hydrogen when rotational degrees of freedom fail to be excited. Phys. Rev., 1946. 70(11/12): p. 932-8.
  • Ricci, M.A., et al., Dynamical correlations in liquid hydrogen-sulphide. J. Chem. Phys., 1990. 93(12): p. 9012-7.
  • Richard, C.E. and F.M. Walters, Comparison of hydrogen and methane as coolants in regeneratively cooled panels. 1971: NASA Contr. Rep., (NASA-CR-1652), 44 pp.
  • Richards, W.T. and J.A. Reid, Acoustical Studies. IV. The Collision Efficiencies of Various Molecules in Exciting the Lower Vibrational States of Ethylene, Together with Some Observations Concerning the Excitation of Rotational Energy in Hydrogen. J. Chem. Phys., 1934. 2: p. 206-214.
  • Richterova, V., On the application of the Benedict-Webb-Rubin equation determine the state behavior of carbon monoxide, argon, oxygen and hydrogen (in Czech). Chem. Prum., 1968. 18(1): p. 8-18.
  • Ridge, D.P. and J.L. Beauchamp, The interaction of ions with nonpolar neutrals: the collision broadening of ion cyclotron resonance lines of ions in hydrogen and methane. J. Chem. Phys., 1976. 64(7): p. 2735-46.
  • Rietveld, A.O., A. van Itterbeek, and C.A. Velds, Viscosity of binary mixtures of hydrogen isotopes and mixtures of He and Ne. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1959(314B): p. 1-12.
  • Rietveld, A.O. and A. van Itterbeek, Viscosity of mixtures of H(2) and HD between 300 and 14 degrees K. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1957(309c): p. 1-5.

  • Rivkin,S. L., Thermodynamic Properties of Gases,4th ed.,Hemisphere: New York, 1988.
  • Roberts, R.J., Specific heat measurements of the solid hydrogens and their mixtures. 1971, Stevens Inst. Technol., Hoboken, N.J., Ph.D. Dissertation, 135 pp.
  • Roberts, R.J. and J.G. Daunt, Specific heats of solid hydrogen, solid deuterium, and solid mixtures of hydrogen and deuterium. J. Low Temp. Phys., 1972. 6(1/2): p. 97-130.
  • Robertson, A.G., Electron drift velocities in normal and parahydrogen and deuterium. Aust. J. Phys., 1971. 24(3): p. 445-9.
  • Robinson, D.B. and J.M. Hutton, Hydrate Formation in Systems Containing Methane, Hydrogen Sulphide and Carbon Dioxide. J. Can. Petrol. Tech., 1967. 6(1): p. 6.
  • Rodden, J. B., Erkey, C., Akgerman, A., High Temp. Diffusion,Viscosity and Density Measurements in n-Eicosane eicosane, J. Chem. Eng. Data, 1988, 33: p. 344-347.
  • Rodden, J. B., Erkey, C., Akgerman, A., Mutual Diffusion Coefficients for Several Dilute Solutes in n-Octacosane and the Solvent Density at 371-543 K, J. Chem. Eng. Data, 1988, 33: p. 450-453
  • Rodebush, W.H. The entropy of hydrogen. in Proc. Natl. Acad. Sci. U. S. A. 1929.
  • Rodebush, W.H., The entropy of hydrogen. Phys. Rev., 1931. 37: p. 221.
  • Roder, H.M. and D.E. Diller, Thermal conductivity of gaseous and liquid hydrogen. J. Chem. Phys., 1970. 52(11): p. 5928-49.
  • Roder, H.M. and R.D. Goodwin, Provisional Thermodynamic Functions for Para-Hydrogen. NBS Technical Note 130, 1961.
  • Roder, H.M. and R.D. McCarty, A modified Benedict-Webb-Rubin equation of state for parahydrogen - II. 1975: Natl. Bur. Stand., Interagency Rep. 75-814, 54 pp.
  • Roder, H.M., A new phase transition in solid hydrogen? Cryogenics, 1973. 13(7): p. 439-40.
  • Roder, H.M., Error estimates for extrapolation of parahydrogen properties to high liquid pressures. 1971: Natl. Bur. Stand., Cryog. Div., Lab. Note 71-2, 6 pp.
  • Roder, H.M., et al., Survey of the properties of the hydrogen isotopes below their critical temperatures. 1973: Natl. Bur. Stand., Tech. Note 641, 122 pp.
  • Roder, H.M., et al., The orthobaric densities of parahydrogen, derived heats of vaporization, and critical constants. Cryogenics, 1963. 3(1): p. 16-22.
  • Roder, H.M., Experimental thermal conductivity values for hydrogen, methane, ethane and propane. 1984: Natl. Bur. Stand., Interagency Rep. 84-3006, 61 pp.
  • Roder, H.M., L.A. Weber, and R.D. Goodwin, The Correlation of Experimental Pressure-Density-Temperature and Specific Heat Data for Parahydrogen. Prog. Refrig. Sci. Tech., 1965. 1: p. 187-191.
  • Roder, H.M., L.A. Weber, and R.D. Goodwin, Thermodynamic and related properties of parahydrogen from the triple point to 100 degrees K at pressures to 340 atm. 1963: Natl. Bur. Stand., Rep. 7987, 103 pp.
  • Roder, H.M., L.A. Weber, and R.D. Goodwin, Thermodynamic and related properties of parahydrogen from the triple point to 100 degrees K at pressures to 340 atmospheres. 1965, NBS: Natl. Bur. Stand., Monogr. 94, 114 pp.
  • Roder, H.M., L.A. Weber, and R.D. Goodwin. The correlation of experimental pressure-density-temperatures and specific heat data for parahydrogen. in Proc. Int. Congr. Refrig., Prog. Refrig. Sci. Technol. 1965.
  • Roder, H.M., Liquid densities of oxygen, nitrogen, argon and parahydrogen (metric supplement). 1974: Natl. Bur. Stand., Tech. Note 361(Revised), 114 pp.
  • Roder, H.M., Parahydrogen - heat of fusion vs. temperature. 1963: Natl. Bur. Stand., Cryog. Eng. Lab. Note 63-9, 4 pp.
  • Roder, H.M., Parahydrogen - Supplemental tables, NBS Report 7987. 1964: Natl. Bur. Stand., Cryog. Eng. Lab. Note 64-22, 31 pp.
  • Roder, H.M., R.D. McCarty, and V.J. Johnson, Liquid densities of oxygen, nitrogen, argon, and parahydrogen. 1972: Natl. Bur. Stand., Tech. Note 361(Revised), 138 pp.
  • Roder, H.M., R.D. McCarty, and V.J. Johnson, Saturated liquid densities of oxygen, nitrogen, argon, and parahydrogen. 1968: Natl. Bur. Stand., Tech. Note 361, 70 pp.
  • Roellig, L.O. and C. Giese, Solubility of helium in liquid hydrogen. J. Chem. Phys., 1962. 37(1): p. 114-6.
  • Roffey, B.J., S.A. Boggs, and H.L. Welsh, Infrared studies of quantum diffusion in solid hydrogen. Can. J. Phys., 1974. 52(24): p. 2451-3.
  • Rogers, D. W., Crooks, E., Dejroongruang, K., Enthalpies of Hydrogenation of the Hexenes, J. Chem. Thermodyn., 1987, 19: p. 1209.
  • Rogers, D. W., McLafferty, F. J., A New Hydrogen Calorimeter. Heats of Hydrogenation of Allyl and Vinyl Unsaturation Adjacent to a Ring, Tetrahedron, 1971, 27: p. 3765.
  • Rogers, J.D., R.K. Zeigler, and P. McWilliams, Hydrogen transport property correlations. 1961: Los Alamos Sci. Lab., Rep. LA-2527, 19 pp.
  • Rogers, J.D., K. Zeigler, and P. McWilliams, Hydrogen transport property correlations. J. Chem. Eng. Data, 1962. 7(2): p. 179-82.
  • Rogers, J.D., R.K. Zeigler, and P. McWilliams, Hydrogen transport property correlations. Part II. 1962: Los Alamos Sci. Lab., Rep. LA-2719, 40 pp.
  • Rogers, J.D. and F.G. Brickwedde, Deuterium and tritium saturated-liquid PVT according to the quantum-mechanical principle of corresponding states. J. Chem. Phys., 1965. 42(8): p. 2822-5.
  • Rosenbaum, B.M. and L. Levitt, Thermodynamic properties of hydrogen from room temperature to 100,000 degrees K. 1962: NASA Tech. Note, (NASA TN D-1107), 41 pp.
  • Rosenbaum, B.M. and G. Thodos, Viscosity correlation for para-hydrogen in the gaseous and liquid states. J. Spacecr. Rockets, 1967. 4(1): p. 122-4.
  • Rosenfeld, Y., Equations of state for liquids from the zero-temperature isotherm: quantum corrections for hydrogen. J. Chem. Phys., 1980. 73(11): p. 5760-5.
  • Rosevear, A.H.M., G. Whiting, and E.J. Allin, An intensity anomaly in the Raman spectra of solid and liquid hydrogen and deuterium. Can. J. Phys., 1967. 45: p. 3589-95.
  • Ross, M. and J.H. Hildebrand, Diffusion of hydrogen, deuterium, nitrogen, argon, methane, and carbon tetrafluoride in carbon tetrachloride. J. Chem. Phys., 1964. 40(8): p. 2397-9.
  • Ross, M., A theoretical analysis of the shock compression experiments of the liquid hydrogen isotopes and a prediction of their metallic transition. J. Chem. Phys., 1974. 60(9): p. 3634-44.
  • Ross, M., F.H. Ree, and D.A. Young, The equation of state of molecular hydrogen at very high density. J. Chem. Phys., 1983. 79(3): p. 1487-94.
  • Roy, A.S. and M.E. Rose. The rotational dispersion of sound in hydrogen. in Proc. R. Soc. London, Ser. A. 1935.
  • Rudenko, N.S. and V.G. Konareva, Viscosity of liquid hydrogen and deuterium. Russ. J. Phys. Chem. (Engl. Transl.), 1963. 37(12): p. 1493-4.
  • Rudenko, N.S. and V.G. Konareva, Viscosity of hydrogen-deuterium solutions. Russ. J. Phys. Chem. (Engl. Transl.), 1964. 38(11): p. 1467-8.
  • Rudenko, N.S. and V.G. Konareva, Viscosity of hydrogen isotope solutions. Sov. Phys. - JETP (Engl. Transl.), 1965. 22(2): p. 313-4.
  • Rudenko, N.S. and V.G. Konareva, Viscosity of liquid hydrogen deuteride. Russ. J. Phys. Chem. (Engl. Transl.), 1966. 40(8): p. 1058-9.
  • Rudenko, N.S. and V.P. Slyusar, Viscosity of hydrogen at constant density in the temperature interval 16.6-300 degrees K (in Russian). Ukr. Fiz. Zh., 1968. 13(6): p. 917-21.
  • Rudenko, N.S. and V.P. Slyusar, Viscosity of hydrogen at constant density over the temperature range 16.6-300 degrees K. Ukr. Phys. J. (Engl. Transl.), 1968. 13(6): p. 656-9.
  • Rudenko, N.S. and V.P. Slyusar, Density of liquid deuterium (in Russian). Zh. Fiz. Khim., 1968. 42(1): p. 242-3.
  • Rudenko, N.S. and V.P. Slyusar, Deuterium viscosity at a constant density from 20.4 degrees K to 300 degrees K (in Russian). Ukr. Fiz. Zh., 1968. 13(11): p. 1857-61.
  • Rudenko, N. S., Konareva, V. G., Viscosity of Liquid Hydrogen and Deuterium, Zh. Fiz. Khim., 1964, 37: p. 2761
  • Rudenko, N.S. and V.P. Slyusar, Density of liquid deuterohydrogen (in Russian). Zh. Fiz. Khim., 1969. 43(3): p. 781-2.
  • Rudham, R. and A.D. Tullett, Low temperature parahydrogen enrichment catalyzed by paramagnetic ions supported on rutile. J. Chem. Soc., Faraday Trans. 1, 1975. 71(12): p. 2361-5.
  • Ruetschi, P. and R.F. Amlie, Solubility of hydrogen in potassium hydroxide and sulfuric acid. Salting-out and hydration. J. Phys. Chem., 1966. 70(3): p. 718-23.
  • Ruhemann, M. and N. Tsin, The System Hydrogen-Nitrogen-Carbon Monoxide. Phys. Z. Sowjetunion, 1937. 12: p. 389-403.
  • Rulis, A.M., K.M. Smith, and G. Scoles, Intermolecular forces in hydrogen-noble gas mixtures. Can. J. Phys., 1978. 56(6): p. 753-62.
  • Ryzhov, V.N., E.E. Tareeva, and T.I. Shchelkacheva, Statistical theory of molecular hydrogen melting curve (in Russian). Fiz. Nizk. Temp., 1986. 12(5): p. 530-3.

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