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  1. Phase Separation of 3He-4He Mixture in Aerogel. 
    Ma, J., and all,  Journal of low temperature physics. 93, N° 5-6, (1993), 945
  2. X-ray scattering study of smectic ordering in a silica aerogel. 
    Clark, Noel A., and all,  Physical review letters. 71, N° 21, (1993), 3505
  3. Phase diagram of 3He-4He mixture in aerogel. 
    Kim, S. B., and all,  Physical review letters. 71, N° 14, (1993), 2268
  4. Electrical and Infrared Dielectrical Properties of Silicia Aerogels and of Silica-Aerogel-Based Composites. 
    Bruesch, P., and all,  Applied physics. A, Solids and surfaces. A57, N° 4, (1993), 329
  5. Fractal Properties of a Partially Crystalline Zirconium Oxide Aerogel. 
    Benedetti, A., and all,  Journal of applied crystallography. 26, Part 5 (1993), 717-720
  6. Particle discrimination in medium energy physics with an aerogel Cherenkov detector. 
    Lippert, C., and all,  Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment. 333, N° 2-3, (1993), 413
  7. Scattering phase function of a silica aerogel at 450 nm wavelength. 
    Kamiuto, K., and all,  Journal of quantitative spectroscopy & radiative transfer. 50, N° 3, (1993), 293
  8. Carbon Aerogel Composite Electrodes. 
    Wang, Joseph, and all,  Analytical chemistry. 65, N° 17, (1993), 2300
  9. Feasibility study of single-proton counting using a fine-mesh phototube for an aerogel readout. 
    Enomoto, R., and all,  Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment. 332, N° 1-2, (1993), 129
  10. Short-range structure of zirconia xerogel and aerogel, determined by wide angle X-ray scattering. 
    Zeng, Y. W., and all,  Journal of non-crystalline solids. 155, N° 3, (1993), 259
  11. Phase separation, density fluctuation, and critical dynamics of N{sub}2 in aerogel. 
    Wong, A. P. Y., and all,  Physical review letters. 70, N° 7, (1993), 954
  12. Preparation of Niobia/Alumina as a Mixed Oxide Aerogel. 
    Maurer, S. M., and all,  Bulletin of the Chemical Society of Japan. 66, N° 2, (1993), 645
  13. Ultra-low density aerogel optical applications. 
    Hotaling, S. P.,  Journal of materials research. 8, N° 2, (1993), 352-355
  14. Reactivity of SiO{sub}2 aerogel activated by hydrogen spillover for the hydrogenation of ethylene and the cracking of cumene. 
    Willey, R. J., and all,  Journal of molecular catalysis. 77, N° 2, (1992), 201
  15. The Onset of Superfluidity in 4He Films Adsorbed in Aerogel Glass. 
    Crowell, P. A., and all,  Journal of low temperature physics. 89, N° 3-4, (1992), 629
  16. Using Acoustic Resonators to Study Superfluid-Filled Silica Aerogel, High T{sub}c Superconductors, and Quasicrystals. 
    Spoor, P. S., and all,  Journal of low temperature physics. 89, N° 3-4, 1992), 689
  17. Thermal Expansion of Helium Filled Aerogel at the Lambda Point. 
    Thibault, P., and all,  Journal of low temperature physics. 89, N° 3-4, (1992), 677
  18. Modelling of flat-plate collectors based on monolithic silica aerogel. 
    Nordgaard, A., and all,  Solar energy. 49, N° 5, (1992), 387
  19. Critical Properties of 4He in Aerogel Near the lambda-Line. 
    Larson, M., and all,  Journal of low temperature physics. 89, N° 1-2, (1992), 79
  20. Optimization of monolithic silica aerogel insulants. 
    Fricke, J., and all,  International journal of heat and mass transfer. 35, N° 9, (1992), 2305
  21. Phase behavior of the liquid crystal 8CB in a silica aerogel. 
    Bellini, Tommaso, and all,  Physical review letters. 69, N° 5, (1992), 788
  22. Evaluation of sol-gel processing as a method for fabricating spherical-shell silica aerogel inertial confinement fusion targets. 
    Jang, K. Y., and all,  Journal of vacuum science & technology. A, Vacuum, surfaces, and films , an official journal of the American Vacuum Society. 10, N° 4, (1992), 1152-1157
  23. Thermal expansion coefficient near the superfluid transition of sup 4 He in an aerogel. 
    Larson, Melora, and all,  Physical review letters. 68, N° 26, (1992), 3896-3899
  24. Heart Cut. 
    Bisio, and all,  Chemtech. 22, N° 2, (1992), 68-71
  25. Effect of Preparation Conditions on the Texture of Silicon Dioxide Aerogel. 
    Chertov, V. M., and all,  Inorganic materials. 27, N° 7, (1991), 1301-1302
  26. Nuclear relaxation of deuterium-tritium adsorbed onto silica aerogel. 
    Souers, P. C., and all,  Journal of vacuum science & technology. A, Vacuum, surfaces, and films , an official journal of the American Vacuum Society. 9, N° 2, (1991), 232
  27. Infrared Investigation of Nio--Alsub 2 Osub 3 Aerogel Catalysts for the Nitroxidation of Propene to Nitriles. 
    Raschko, John S., and all,  Chemical engineering communications. 104, (1991), 167-176
  28. A Theoretical Study of Sound Transmission Through Aerogel Glazing Systems. 
    Narang, P. P.,  Applied acoustics. Acoustique appliqué. Angewandte Akustik. 34, N° 4, (1991), 249-260
  29. Aerogels, the world's lightest solids. 
    Source, Chemistry and industry. N° 24, (1990), 824-827
  30. Study of sol-gel processing for fabrication of hollow silica- aerogel spheres. 
    Jang, K. Y., and all,  Journal of vacuum science & technology. A, Vacuum, surfaces, and films , an official journal of the American Vacuum Society. 8, N° 3- Part 1, (1990), 1732-1736
  31. Hydrodynamic behaviour of aerogel powders in high-velocity fluidized beds. 
    Li, H., and all,  Powder technology. 60, N° 2, (1990), 121-130
  32. Combined Conductive and Radiative Heat Transfer Through Evacuated Silica Aerogel Layers. 
    Kamiuto, Kouichi,  International journal of solar energy. 9, N° 1, (1990), 23
  33. Aerosol-aerogel transition. 
    Lushnikov, A. A., and all,  Journal of aerosol science. 22, Supplement 1, S191-S194 (1990)
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