Publications -K-
  • Kagan, Y., V.V. Pushkarev, and A. Kholas, Equation of state of the metallic phase of hydrogen. Sov. Phys. - JETP (Engl. Transl.), 1977. 46(3): p. 511-22.
  • Kagan, Y., G.V. Shlyapnikov, and I.A. Vartanyantz, The problem of "thermal explosion" in spin-polarized atomic hydrogen gas. Phys. Lett. A, 1984. 101(1): p. 27-30.
  • Kalnoi, S.E. and M.A. Strzhemechnyi, Interaction of dislocations with point defects in solid parahydrogen (in Russian). Fiz. Nizk. Temp., 1985. 11(8): p. 803-13.
  • Kalnoi, S.E. and M.A. Strzhemechnyi, Theory of the interaction of dislocations with ortho-impurity in solid hydrogen (in Russian). Fiz. Nizk. Temp., 1985. 11(2): p. 218-20.
  • Kamerlingh Onnes, H. and M. Boudin, On the measurement of very low temperatures. III. Coefficient of pressure variation of pure hydrogen between 0 degrees C. and 100 degrees C. Commun. Phys. Lab. Univ. Leiden, 1900(60): p. 1-30.
  • Kamerlingh Onnes, H. and C. Braak, Isotherms of di-atomic gases and their binary mixtures. VI. Isotherms of hydrogen between -104 degrees C. and -217 degrees C. Commun. Phys. Lab. Univ. Leiden, 1906(97A): p. 1-28.
  • Kamerlingh Onnes, H. and C. Braak, On the measurement of very low temperatures. XIII. Determinations with the hydrogen thermometer. Commun. Phys. Lab. Univ. Leiden, 1906(95E): p. 53-67.
  • Kamerlingh Onnes, H. and C. Braak, Isotherms of diatomic gases and their binary mixtures. VI. Isotherms of hydrogen between -104 degrees C. and -217 degrees C. (continued). Commun. Phys. Lab. Univ. Leiden, 1907(100A): p. 1-10.
  • Kamerlingh Onnes, H. and C. Braak, Isotherms of diatomic gases and their binary mixtures. VII. Isotherms of hydrogen between 0 degrees C. and 100 degrees C. Commun. Phys. Lab. Univ. Leiden, 1907(100B): p. 10-5.
  • Kamerlingh Onnes, H. and W.J. de Haas, Isotherms of diatomic substances and of their binary mixtures. XII. The compressibility of hydrogen vapour at, and below, the boiling point. Commun. Phys. Lab. Univ. Leiden, 1912(127C): p. 19-33.
  • Kamerlingh Onnes, H., C. Dorsman, and S. Weber, Investigation of the viscosity of gases at low temperatures. I. Hydrogen. Commun. Phys. Lab. Univ. Leiden, 1913(134A): p. 1-13.
  • Kamerlingh Onnes, H. and W.H. Keesom, On the measurement of very low temperatures. XXIII. The vapour pressures of hydrogen from the boiling point down to near the triple-point. Commun. Phys. Lab. Univ. Leiden, 1913(137D): p. 37-44.
  • Kamerlingh Onnes, H. and H.A. Kuypers, Measurements on the capillarity of liquid hydrogen. Commun. Phys. Lab. Univ. Leiden, 1914(142D): p. 37-42.
  • Kamerlingh Onnes, H., C.A. Crommelin, and E.I. Smid, Isothermals of di-atomic substances and their binary mixtures. XVIII. The isothermal of hydrogen at 20 degrees C. from 60 to 100 atmospheres. Commun. Phys. Lab. Univ. Leiden, 1915(146B): p. 11-20.
  • Kamerlingh Onnes, H., C. Dorsman, and G. Holst, Isothermals of di-atomic substances and their binary mixtures. XVII. Preliminary measurements concerning the isothermal of hydrogen at 20 degrees C. from 60 to 90 atmospheres. Commun. Phys. Lab. Univ. Leiden, 1915(146A): p. 1-10.
  • Kamerlingh Onnes, H., C.A. Crommelin, and P.G. Cath, Isothermals of di-atomic substances and their binary mixtures. XIX. A preliminary determination of the critical point of hydrogen. Commun. Phys. Lab. Univ. Leiden, 1917(151C): p. 23-32.
  • Kamerlingh Onnes, H. and J. Palacios Martinez, Vapor pressure of hydrogen and new determinations in the liquid hydrogen region (in Spanish). An. R. Soc. Esp. Fis. Quim., 1922. 20: p. 233-42.
  • Kamerlingh Onnes, H. and F.M. Penning, Isotherms of diatomic substances and their binary mixtures. XXIII. Isotherms of hydrogen between -104 degrees C. and -244 degrees C (in French). Commun. Phys. Lab. Univ. Leiden, 1923(165B): p. 11-21.
  • Kamerlingh Onnes, H. and W. van Gulik, The melting-curve of hydrogen to 55 kg/cm(2). Commun. Phys. Lab. Univ. Leiden, 1926(184A): p. 1-6.
  • Kaminishi, G.-I., Toriumi, T., Vapor-liquid equilibria in the systems carbon dioxide + carbon monoxide,carbon dioxide + carbon monoxide + hydrogen,and carbon dioxide + methane, Rev. Phys. Chem. Jpn., 1968, 38: p. 79-84.
  • Kannuluik, W.G. and L.H. Martin, The thermal conductivity of some gases at 0 °C. Proc. R. Soc. London, Ser. A, 1934. 144: p. 496-513.
  • Karim, G.A., I. Wierzba, and S. Boon, The lean flammability limits in air of methane, hydrogen and carbon monoxide at low temperatures. Cryogenics, 1984. 24(6): p. 305-8.
  • Karnatsevich, L.V., N.G. Bereznyak, and I.V. Bogoyavlenskii, Excess thermodynamic functions of hydrogen-deuterium solutions (in Russian). Ukr. Fiz. Zh., 1974. 19(5): p. 743-51.
  • Karplus, M., Refractive index of the hydrogen molecule. J. Chem. Phys., 1964. 41(3): p. 880-3.
  • Kartluke, H., et al., Gelling of liquid hydrogen. 1964: NASA Contr. Rep., (NASA-CR-54055), 58 pp.
  • Katayama, T. and T. Nitta, Solubilities of hydrogen and nitrogen in alcohols and n-hexane. J. Chem. Eng. Data, 1976. 21(2): p. 194-6.
    Kawai, N., M. Togaya, and O. Mishima. A study of the metallic hydrogen. in Proc. Jpn. Acad. 1975.
  • Kazarnovskii, Y.S., G.B. Simonov, and G.E. Aristov, Compressibility of nitrogen-hydrogen-ammonia mixtures at high pressures and temperatures (in Russian). Zh. Fiz. Khim., 1940. 14(5/6): p. 774-81.
  • Kazarnovskii, Y.S., G.B. Simonov, and G.E. Aristov, Compressibility of nitrogen-hydrogen-ammonia mixtures at high pressures and temperatures. 1968: Picatinny Arsenal, Tech. Transl. 142, 14 pp.
  • Kazavchinskii, Y.Z. and L.S. Serdyuk, Single equation of state for parahydrogen from the triple point to 10000 degrees K and up to reduced density omega = 2.8 (in Russian). Teplofiz. Svoistva Zhidk. Gazov. Vys. Temp. Plazmy, Tr. Vses. Konf., 1969. 2: p. 161-71.
  • Kazavchinskii, Y.Z. and L.S. Serdyuk, Unified equation of state for normal hydrogen (in Russian). Teplofiz. Svoistva Veshchestv Mater., 1971. 3: p. 3-14.
  • Kazavchinskii, Y.Z. and L.S. Serdyuk, Single equation of state for parahydrogen. Thermophys. Prop. Matter Subst., 1974. 2: p. 39-51.
  • Kechin, V.V., et al., Melting curve of hydrogen up to 10 kbar. Sov. Phys. - JETP (Engl. Transl.), 1977. 45(1): p. 182-4.
  • Keesom, W.H., The heat of vaporization of hydrogen. Commun. Phys. Lab. Univ. Leiden, 1911(137E): p. 45-52.
  • Keesom, W. H., Keesom, P. H., Viscosity of Hydrogen Vapor, Physica ( Amsterdam), 1940, 7: p. 2932.
  • Keesom, W.H. and H. Kamerlingh Onnes, The specific heat at low temperatures. IV. Measurements of the specific heat of liquid hydrogen. Preliminary results on the specific heat of solid hydrogen and on the heat of fusion of hydrogen. Commun. Phys. Lab. Univ. Leiden, 1917(153A): p. 1-7.
  • Keesom, W.H., On the design of hydrogen and helium liquefiers (in French). Actes Congr. Int. Froid, 1929. 5TH: p. 157-65.
  • Keesom, W.H. and D.J. Houthoff, Entropy diagram of hydrogen (in French). Commun. Phys. Lab. Univ. Leiden, Suppl., 1929(65D): p. 25-8.
  • Keesom, W.H., J. de Smedt, and H.H. Mooy, On the crystal structure of para-hydrogen at liquid helium temperatures. Commun. Phys. Lab. Univ. Leiden, 1930(209D): p. 33-41.
  • Keesom, W.H., A. Bijl, and H. van der Horst, Determination of the boiling points and the vapour-pressure curves of normal hydrogen and of para-hydrogen. The normal boiling point of normal hydrogen as a basic point in thermometry. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1931(217A): p. 1-9.
  • Keesom, W.H. and J.H.C. Lisman, The melting-curve of hydrogen to 450 kg/cm(2). Commun. Phys. Lab. Univ. Leiden, 1931(213E): p. 39-45.
  • Keesom, W.H. and J.H.C. Lisman, The melting curve of hydrogen up to 610(5) kg/cm(2) (in French). Commun. Phys. Lab. Univ. Leiden, 1932(221A): p. 1-4.
  • Keesom, W.H. and J. Haantjes, The vapour pressure of neon at liquid hydrogen temperatures. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1935(235C): p. 1-3.
  • Keesom, W.H. and G. Schmidt, Researches on heat conduction by rarefied gases. I. The thermal accommodation coefficient of helium, neon, hydrogen and nitrogen on glass at 0 degrees C. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1936(242C): p. 1-7.
  • Keesom, W.H. and G. Schmidt, Researches on heat conduction by rarefied gases. II. The thermal accommodation coefficient of helium, neon, hydrogen and nitrogen on glass at 70-90 degrees K. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1936(245B): p. 1-8.
  • Keesom, W.H. and G. Schmidt, Researches on heat conduction by rarefied gases. III. The thermal accommodation coefficient of helium, neon, and hydrogen at 12-20 degrees K. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1937(250A): p. 1-7.
  • Keesom, W.H. and G.E. MacWood, The viscosity of hydrogen vapour. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1938(254C): p. 1-4.
  • Keesom, W.H. and G.E. MacWood, The viscosity of liquid hydrogen. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1938(254B): p. 1-4.
  • Keesom, W.H. and P.H. Keesom, The viscosity of hydrogen vapour. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1940(257C): p. 1-4.
  • Keesom, W.H. and W.K. Walstra, The second virial coefficient of helium at temperatures of liquid and solid hydrogen. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1947(271A): p. 1-6.
  • Keijser, R.A.J., et al., The pressure broadening of the rotational Raman lines of hydrogen isotopes. Physica, 1974. 76(3): p. 585-608.
  • Keller, W.E., A.S. Friedman, and H.L. Johnston, Compressibility of liquid normal hydrogen from the boiling point to the critical point at pressures up to 100 atmospheres. 1952: Natl. Bur. Stand., Circ. 519:274.
  • Keller, C.W., A study of hydrogen slush and/or hydrogen gel utilization. 1968: Lockheed Missiles Space Co., Final Rep. K-11-68-1K, 141 pp.
  • Kemp, R.C. and W.R.G. Kemp, The triple point, boiling point and 17 K point of equilibrium hydrogen. Metrologia, 1979. 15(3): p. 155-9.
  • Kenney, V.P., Neon-hydrogen mixtures and track-sensitive targets for bubble-chamber experiments at NAL. 1969: Natl. Accel. Lab., Rep. TID-25473(Vol. 2):249-54.
  • Kerl, K., Determination of mean molecular polarizabilities and second virial coefficients of gases by scanning-wavelength interferometry, Z. Phys. Chem. ( Munich), 1982, 129: p. 129-48.
  • Kerley, G.I., Equation of state and phase diagram of dense hydrogen. Phys. Earth Planet. Inter., 1972. 6(1/3): p. 78-82.
  • Kerley, G.I., A theoretical equation of state for deuterium. 1972: Los Alamos Sci. Lab., Rep. LA-4776, 30 pp.
  • Kerr, E.C., et al., Condensed gas calorimetry. II. Heat capacity of ortho-deuterium between 13.1 and 23.6 degrees K., melting and boiling points, heats of fusion and vaporization. Vapor pressures of liquid ortho-deuterium. J. Am. Chem. Soc., 1951. 73: p. 282-4.
  • Kerr, E.C., Molar volumes of liquid deuterium and of a 1:1 mixture of tritium and deuterium, 19.5 to 24.5 degrees K. J. Am. Chem. Soc., 1952. 74: p. 824-5.
  • Kerr, E.C., Molar Volumes of Liquid Deuterium and of a 1:1 Mixture of Tritium and Deuterium, 19.5 to 24.5øK. J. Am. Chem. Soc., 1952. 74: p. 824-825.
  • Kesselman, P.M. and V.A. Rabinovich, Thermodynamic properties of dissociated hydrogen and oxygen (in Russian). Inzh.-Fiz. Zh., 1963. 6(7): p. 43-9.
  • Kestin, J. and A. Nagashima, The viscosity of the isotopes of hydrogen and their intermolecular force potentials. 1963: Proj. Squid, Tech. Rep. BRN-11-P, 27 pp.
  • Kestin, J. and H.E. Wang, The Viscosity of Five Gases: A Re-evaluation. Trans. ASME, 1958. 80: p. 11-17.
  • Kestin, J. and K. Pilarczyk, Measurement of the viscosity of five gases at elevated pressures by the oscillating-disk method. Trans. ASME, 1954. 76: p. 987-99.
  • Kestin, J. and J. Yata, Viscosity and diffusion coefficient of six binary mixtures. J. Chem. Phys., 1968. 49(11): p. 4780-91.
  • Kestin, J., S.T. Ro, and W.A. Wakeham, Reference values of the viscosity of twelve gases at 25 °C. Trans. Faraday Soc., 1971. 67: p. 2308-2313.
  • Kestin, J., S.T. Ro, and W.A. Wakeham, Viscosity of the isotopes of hydrogen and their intermolecular force potentials. J. Chem. Soc., Faraday Trans. 1, 1972. 68(12): p. 2316-23.
  • Kestin, J. and W. Leidenfrost, An absolute determination of the viscosity of eleven gases over a range of pressures. Physica (Amsterdam), 1959. 25: p. 1033-62.
  • Kestin, J., Y. Nagasaka, and W.A. Wakeham, The Thermal-Conductivity of Mixtures of Hydrogen with Nitrogen. Berichte Der Bunsen-Gesellschaft-Physical Chemistry Chemical Physics, 1982. 86(3): p. 187-191.
  • Keyes, F.G., Thermal conductivity of gases. Trans. ASME, 1954. 76: p. 809-16.
  • Khalatnikov, I., Problem of metallic hydrogen. 1973: U.S. Dept. Army, For. Sci. Technol. Cent., Transl. FSTC-HT-23-2494-72, 8 pp.
  • Khariton, Y., On the two modifications of hydrogen (in Russian). Usp. Fiz. Nauk, 1930. 10(1): p. 95-110.
  • Khirnyi, V.F. and E.N. Malyshev, Temperature dependence of the permittivity of solid normal hydrogen. Sov. Phys. J. (Engl. Transl.), 1972. 15(8): p. 1184-5.
  • Kiefer, J.H. and R.W. Lutz, Density change on vibrational relaxation in shock-heated hydrogen and deuterium. J. Chem. Phys., 1966. 45: p. 3888-90.
  • Kim, H.-W., H.F. Hameka, and E.N. Svendsen, Improved polarizability calculations of the hydrogen molecule. Chem. Phys. Lett., 1976. 41(2): p. 213-5.
  • Kim, H.Y., et al., Enthalpy of hydrogen-containing hydrocarbon liquids. AIChE J., 1982. 28(5): p. 833-5.
  • Kim, K.J., et al., Metal hydride compacts of improved thermal conductivity. International Journal of Hydrogen Energy, 2001. 26(6): p. 609-613.
  • Kim, K. J., Way, T. R., Feldman Jr., K. T., Razani, A., Solubility of Hydrogen in Octane,1-Octanol,and Squalane, J. Chem. Eng. Data, 1997, 42 (1),214-215.
  • Kimashoua, V.P. and I.F. Golubev, Thermal Conductivity of Gas Mixtures Containing Hydrogen, Nitrogen, Methane and Argon, at Temperatures 240, 25 to 721, 45 K and Pressures 1 too 589 bar. Tr. Gos. N.-i i Proekt. In-Ta Azot. PRom-Sti i Produktuv Organ. Sinteza, 1979. 52: p. 33.
  • King, A. D., Robertson, W. W., Solubility of Naphthalene in Compressed Gases, J. Chem. Phys., 1962, 37: p. 1453-5.
  • King, C.R., Compilation of thermodynamic properties, transport properties, and theoretical rocket performance of gaseous hydrogen. 1960: NASA Tech. Note, (NASA TN D-275), 71 pp.
  • Kinoshita, M. and J. Oishi, Expansion and Pressure Coefficients of Nitrogen, Hydrogen, Helium, and Neon, and the Absolute Temperature of 0ø C. Tokyo University of Engineering, 1936.
  • Kinoshita, M. and J. Oishi, Expansion and pressure coefficients of nitrogen, hydrogen, helium, and neon, and the absolute temperature of 0 degrees C. Philos. Mag., 1937. 24: p. 52-61.
  • Kirk, B.S., Predicted and experimental gas phase compositions in pressurized binary systems containing an essentially pure condensed phase. Phase equilibrium data for the methane-hydrogen system from 66.88 degrees to 116.53 degrees K and up to 125 atmospheres. 1964, Ga. Inst. Technol., Atlanta, Ph.D. Dissertation, 286 pp.
  • Kirk, B.S. and W.T. Ziegler, A phase-equilibrium apparatus for gas-liquid systems and the gas phase of gas-solid systems: application to methane-hydrogen from 66.88 degrees to 116.53 degrees K and up to 125 atmospheres. Adv. Cryog. Eng., Sect. M-U, 1965. 10: p. 160-70.
  • Kirn, M., The dispersion of hydrogen in the ultraviolet (in German). Ann. Phys. (Leipzig), 1921. 64(6): p. 566-76.
    Kisman, K.E. and R.L. Armstrong, Longitudinal relaxation time measurements in hydrogen gas at low densities. Can. J. Phys., 1974. 52(16): p. 1555-66.
  • Kiss, Z.J., H.P. Gush, and H.L. Welsh, The pressure-induced rotational absorption spectrum of hydrogen. I. A study of the absorption intensities. Can. J. Phys., 1959. 37(3): p. 362-76.
  • Kiss, Z.J. and H.L. Welsh, The pressure-induced rotational absorption spectrum of hydrogen. II. Analysis of the absorption profiles. Can. J. Phys., 1959. 37: p. 1249-59.
  • Kistiakowsky, G. B., Ethylene-ethane and propylene-propane equilibria, J. Chem. Phys., 1942, 10: p. 78.
  • Kistiakowsky, G. B., Ruhoff, J. R., Smith, H. A., Vaughan, W. E., Heats of Organic Reactions III. Hydrogenation of Some Higher Olefins, J. Am. Chem. Soc., 1936, 58: p. 137.
  • Kistiakowsky, G. B., Ruhoff, J. R., Smith, H. A., Vaughan, W. E., Heats of Organic Reactions II. Hydrogenation of Some Simpler Olefinic Hydrocarbons, J. Am. Chem. Soc., 1935, 57: p. 876-82.
  • Kitchen, D.B., T.P. Ruane, and L.C. Allen, Water binding in cryogenic liquids: the H(2)O...N(2) hydrogen bond. Chem. Phys. Lett., 1987. 141(6): p. 525-9.
  • Klein, M.L. and T.R. Koehler, Lattice dynamics of hcp ortho-deuterium. Phys. Lett. A, 1970. 33(4): p. 253-4.
  • Kleint, F., On the viscosity of binary mixtures between hydrogen, oxygen, nitrogen (in German). Ber. Dtsch. Phys. Ges., 1905. 7: p. 146-58.
  • Klemenc, A. and W. Remi, Experimental determination of the viscosity of gases and gaseous mixtures at high temperature (in German). Sitzungsber. Acad. Wiss. Wien, Math-Naturwiss. Kl., 1924. 44: p. 307-316.
  • Klemenc, A. and W. Remi, Experimental research on the coefficients of viscosity of nitric oxide and propane and their mixtures with hydrogen (in German). Sitzungsber. Acad. Wiss. Wien, Math.-Naturwiss. Kl., Abt. 2B, 1923. 132: p. 293-302.
  • Kling, G. and G. Maurer, The solubility of hydrogen in water and in 2-aminoethanol at temperatures between 323 k and 423 K and pressures up to 16 MPa. J. Chem. Thermodyn., 1991. 23: p. 531-541.
  • Klink, A.E., H.Y. Cheh, and E.H.J. Amick, The Vapor-Liquid Equilibrium of the Hydrogen-n-Butane System at Elevated Pressures. AIChE J., 1975. 21: p. 1142-1148.
  • Knaap, H.F.P., et al., The second virial coefficient of binary mixtures of the hydrogen isotopes and helium at 20.4 degrees K. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1960(322A): p. 1-5.
  • Knaap, H.F.P., et al., The Second Virial Coefficient of Binary Mixtures of the Hydrogen Isotopes and Helium at 20.4øK. Physica, 1960. 26: p. 633.
  • Knaap, H.F.P., M. Knoester, and J.J.M. Beenakker, The volume change on mixing for several liquid systems and the difference in molar volume between the ortho and para modifications of the hydrogenic molecules. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1961(325C): p. 1-10.
  • Knaap, H.F.P., The hydrogen isotopes in the gaseous and liquid states. 1962, Rijksuniv, Leiden, Netherlands, Ph.D. Dissertation, 74 pp.
    Knaap, H.F.P., et al., The second virial coefficients of the hydrogen isotopes between 20 and 70 degrees K. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1962(330C): p. 1-12.
  • Knaap, H.F.P., et al., The Second Virial Coefficients of the Hydrogen Isotopes Between 20 and 70øK. Physica, 1962. 28: p. 21-32.
  • Knaap, H.F.P., L.J.F. Hermans, and J.J.M. Beenakker. The difference in polarizability between orthohydrogen and parahydrogen in their ground states. in Proc. Int. Conf. Low Temp. Phys. 1965.
  • Knaap, H.F.P., et al., Transverse heat transport under the influence of a magnetic field in gaseous hydrogen isotopes. Low Temp. Phys., 1969. 11: p. 643-8.
  • Knapp, H.F.P., et al., Interactions between the hydrogen isotopes and their ortho and para modifications. Discuss. Faraday Soc., 1965. 40: p. 135-9.
  • Knight, J.A., Jr., Chemical reactivity of hydrogen, nitrogen and oxygen atoms at temperatures below 100 degrees K. 1967: NASA Contr. Rep., (NASA-CR-82983), 22 pp.
  • Knobler, C. M., Beenakker, J. J. M., Knaap, H. F. P., The second virial coefficient of gasesus mixtures at 90 K, Physica (Amsterdam),1959. 25: p. 909-16.
  • Knoester, M., K.W. Taconis, and J.J.M. Beenakker, Excess enthalpies of gaseous mixtures of hydrogen, nitrogen and argon between 150 and 293 degrees K and at pressures up to 130 atm. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1967(351A): p. 1-21.
  • Knox, B.P. and H.R. Eberle, Propellant performance handbook. Volume V. Part A. Oxygen/hydrogen. 1964: Bell Aerosys. Co., Rep. 8173-902008-Vol-7-Pt-A, 334 pp.
  • Kocher, R.M. and A.E. Brown, Capacitance level gaging for pre-launch loading of slush hydrogen. Cryog. Indust. Gases, 1969. 4(8): p. 28-30.
  • Koehl, B.G., W. Hodge, and D.N. Williams, An investigation of the reaction of titanium with hydrogen. 1966: NASA Contr. Rep., (NASA-CR-65456), 44 pp.
  • Koehler, W.E. and J. Schaefer, Theoretical studies of H(2)-H(2) collisions. V. Ab initio calculations of relaxation phenomena in parahydrogen gas. J. Chem. Phys., 1983. 78(11): p. 6602-10.
  • Koeppe, W., The integral Thomson-Joule effect of hydrogen at low temperatures and pressures up to 120 atu (in German). Kaeltetechnik, 1956. 8(9): p. 275-9.
  • Koeppe, W. and F.X. Eder, New measurements on the Joule-Thomson effect of hydrogen (in German). Exp. Tech. Phys., 1956. 4(1): p. 26-8.
  • Koeppe, W., Specific heat of hydrogen (in German). Kaeltetechnik, 1957. 9(2): p. 30-1.
  • Koeppe, W., Remarks on the inversion curve of hydrogen (in German). Kaeltetechnik, 1960. 12(12): p. 376.
  • Kogan, V.S., B.G. Lazarev, and R.F. Bulatova, The crystalline structure of hydrogen and deuterium. Sov. Phys. - JETP (Engl. Transl.), 1957. 4(4): p. 593-4.
  • Kogan, V.S., B.G. Lazarev, and R.F. Bulatova, The phase diagram of the hydrogen-deuterium system. Sov. Phys. - JETP (Engl. Transl.), 1958. 7(1): p. 165-6.
  • Kogan, V.S., B.G. Lazarev, and R.B. Bulatova, State Diagram of the Hydrogen-Deuterium System. Zh. Ek. Theor. Fiz., 1958. 34: p. 238-240.
  • Kogan, V.S., B.G. Lazarev, and R.F. Bulatova, Diffraction of x-rays by polycrystalline samples of hydrogen isotopes. Sov. Phys. - JETP (Engl. Transl.), 1960. 10(3): p. 485-8.
  • Kogan, V.S., et al., Neutron diffraction study of the crystalline structure of solid hydrogen and deuterium. Sov. Phys. - JETP (Engl. Transl.), 1961. 13(4): p. 718-21.
  • Kogan, V.S., B.G. Lazarev, and R.F. Bulatova, Phase diagram of liquid-solid systems formed by hydrogen isotopes (in Russian). Ukr. Fiz. Zh., 1962. 7: p. 732-6.
  • Kogan, V.S., A.S. Bulatov, and L.F. Yakimenko, Texture in layers of hydrogen isotopes condensed on a cooled substrate. Sov. Phys. - JETP (Engl. Transl.), 1964. 19(1): p. 107-9.
  • Kogan, V.S., Y.Y. Milenko, and T.K. Grigorova, Dielectric constant measurement of hydrogen isotopes in the liquid phase. Physica (Amsterdam), 1971. 53: p. 125-31.
  • Kogan, V.S., Y.Y. Milenko, and T.K. Grigorova, Measurement of the dielectric constant of liquid deuterium and deuterohydrogen. Sov. Phys. - JETP (Engl. Transl.), 1971. 32(4): p. 649-51.
  • Kohl, J.E., M.G. Semack, and D. White, Nuclear spin relaxation of hydrogen in a solid argon matrix. Phys. Rev. Lett., 1979. 42(16): p. 1072-5.
  • Kohnstamm, P. and K.W. Walstra. Measurements of isotherms of hydrogen at 20 degrees C. and 15.5 degrees C. in Proc. K. Ned. Akad. Wet. 1914.
  • Kohnstamm, P. and K.W. Walstra, Measurements of the Isotherms of Hydrogen at 20ø C and 15.5ø C. Verslag Akad Wettenschappen Amsterdam, 1914. 22: p. 1366-1379.
  • Kokshenev, V.B., Thermal conductivity of solid hydrogen at low orthomodification concentrations (in Russian). Fiz. Nizk. Temp., 1972(20): p. 102-12.
  • Kokshenev, V.B., Thermal-Conductivity of Solid Hydrogen at Low Ortho-Hydrogen Concentrations. Journal of Low Temperature Physics, 1975. 20(3-4): p. 373-382.
  • Kokshenev, V.B., Effects of heavy impurities on thermodynamic properties of solid hydrogen. Solid State Commun., 1976. 18(3): p. 413-4.
  • Kokshenev, V.B., Theory of the anomalous specific heat of solid hydrogen with a neon impurity. Sov. J. Low Temp. Phys. (Engl. Transl.), 1976. 2(2): p. 118-25.
  • Kokshenev, V.B., On anomalous behaviour of Grueneisen coefficient of solid hydrogen during its transition to quadrupole glass state (in Russian). Fiz. Nizk. Temp., 1985. 11(8): p. 881-4.
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