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Referencias:

• Bruch, L.W., Cole, M.W., Zaremba, E., (1997) Physical Adsorption: Forces and Phenomena, , Oxford University Press, Oxford
• Radhakrishnan, R., Gubbins, K.E., Quasi-one-dimensional phase transitions in nanopores: Pore-pore correlation effects (1997) Phys. Rev. Lett., 79, pp. 2847-2850
• Landau, L.D., Lifshitz, E.M., (1958) Statistical Physics, , Pergamon, London-Paris
• Stanley, H.E., (1971) Introduction to Phase Transitions and Critical Phenomena, , Clarendon, Oxford
• Stan, G., Cole, M.W., Low coverage adsorption in cylindrical pores (1998) Surf. Sci., 395, pp. 280-291
• Stan, G., Cole, M.W., Hydrogen adsorption in nanotubes (1998) J. low Temp. Phys., 110, pp. 539-544
• Vidales, A.M., Crespi, V.H., Cole, M.W., Heat capacity and vibrational spectra of monolayer films adsorbed in nanotubes (1998) Phys. Rev. B, 58, pp. R13426-R13429
• Stan, G., Boninsegni, M., Crespi, V.H., Cole, M.W., Interstitial He and Ne in nanotube bundles (1998) J. low Temp. Phys., 113, pp. 447-452
• Clauss, W., Bergeron, D.J., Johnson, A.T., Atomic resolution STM imaging of a twisted single-wall carbon nanotube (1998) Phys. Rev. B, 58, pp. R4266-R4269
• Iijima, S., Helical microtubules of graphitic carbon (1991) Nature (London), 354, pp. 56-58
• Dresselhaus, M.S., Dresselhaus, G., Eklund, P.C., (1996) Science of Fullerenes and Carbon Nanotubes, , Academic, San Diego
• Ebbesen, T.W., Ajayan, P.M., Large-scale synthesis of carbon nanotubes (1992) Nature (London), 358, pp. 220-222
• Ebbesen, T.W., Hiura, H., Fujita, J., Ochiai, Y., Matsui, S., Tanigaki, K., Patterns in the bulk growth of carbon nanotubes (1993) Chem. Phys. Lett., 209, pp. 83-90
• White, C.T., Mintmire, J.W., Density of states reflects diameter in nanotubes (1998) Nature (London), 394, pp. 29-31
• Thess, A., Lee, R., Nikolaev, P., Hongjie, D., Petit, P., Robert, J., Xu, C., Smalley, R.E., Crystalline ropes of metallic carbon nanotubes (1996) Science, 273, pp. 483-487
• Journet, C., Maser, M.K., Bernier, P., Loiseau, A., Lamy De La Chapelle, M., Lefrant, S., Deniard, P., Fischer, J.E., Large-scale production of single-walled carbon nanotubes by the electric-arc technique (1997) Nature (London), 388, pp. 756-758
• (1997) C. Dillon, K. M. Jones, T. A. Bekkedahl, C. H. Kiang, D. S. Bethune, and M. J. Heben, "Storage of Hydrogen in Single-walled Carbon Nanotubes," Nature (London), 386, pp. 377-379
• Chambers, A., Park, C., Baker, R.T.K., Rodriguez, N.M., Hydrogen storage in carbon nanofibers (1998) J. Phys. Chem. B, 102, pp. 4253-4256
• Inoue, S., Ichikuni, N., Suzuki, T., Uematsu, T., Kaneko, K., Capillary condensation of N2 on multiwall carbon nanotubes (1998) J. Phys. Chem. B, 102, pp. 4689-4692
• Tejasen, K., Diama, A., Wittmer, D., Migone, A.D., Development of boron carbide as a suitable substrate for physisorption studies (1998) Langmuir, 14, pp. 1769-1773
• Mackie, E.B., Wolfson, R.A., Arnold, L.M., Lafdi, K., Migone, A.D., Adsorption studies of methane films on catalytic carbon nanotubes and on carbon filaments (1997) Langmuir, 13, pp. 7197-7201
• Wang, Q., Johnson, J.K., Computer simulations of hydrogen adsorption on graphite nanofibers (1998) J. Phys. Chem. B, 103, pp. 277-281
• Molecular simulation of hydrogen adsorption in single-walled carbon nanotubes and idealized carbon slit pores (1999) J. Chem. Phys., 110, pp. 577-586
• Wang, Q., Challa, S.R., Sholl, D.S., Johnson, J.K., Quantum sieving in carbon nanotubes and zeolites (1999) Phys. Rev. Lett., 82, pp. 956-959
• Darkrim, F., Levesque, D., Monte Carlo simulations of hydrogen adsorption in single-walled carbon nanotubes (1998) J. Chem. Phys., 109, pp. 4981-4984
• Yin, Y.F., McEnaney, B., Mays, T., Molecular simulations of hydrogen storage in arrays of carbon nanotubes Chem. Commun., , Cambridge (to be published)
• Teizer, W., Hallock, R.B., Dujardin, E., Ebbesen, T.W., 4He desorption from single wall carbon nanotube bundles (1999) Phys. Rev. Lett., 82, pp. 5305-5308
• note; Pathria, R.K., (1996) Statistical Mechanics, p. 146. , Butterworth Heinemann, Oxford
• note; Stwalley, W.C., Nosanow, L.H., Possible 'new' quantum systems (1976) Phys. Rev. Lett., 36, pp. 910-913
• Boninsegni, M., Carraro, C., Cole, M.W., Stan, G., unpublished; Pathria, R.K., , p. 230. , Ref. 17, Problem 8.13; The derivation of this result follows closely the corresponding 3D one described in R. K. Pathria, in Ref. 17, Eq. (31), Chap. 7; Gunton, J.D., Buckingham, M.J., Condensation of the ideal Bose gas as a cooperative transition (1968) Phys. Rev., 166, pp. 152-159
• Pfeifer, P., (1988) Springer Ser. Surf. Sci., 10, p. 283. , Chemistry and Physics of Solid Surfaces VII, edited by R. Vanselow and R. F. Howe
• Kim, S.-H., (1997) Int. J. Bifurcation Chaos Appl. Sci. Eng., 7, p. 1063
• Lieb, E.H., Mattis, D.C., (1966) Mathematical Physics in One Dimension, pp. 395-403. , Academic, New York
• Haldane, F.D.M., Luttinger liquid theory' of one-dimensional quantum fluids (1981) J. Phys. C, 14, pp. 2585-2609
• Luttinger, J.M., (1963) J. Math. Phys., 4, p. 1154
• Tomonaga, S., (1950) Prog. Theor. Phys., 5, p. 544
• Shulz, H.J., Fermi liquids and non-Fermi liquids (1995) Proceedings of les Houches Summer School LXI, p. 533. , edited by E. Akkermans, G. Montambaux, J. Pichard, and J. Zinn-Justin Elsevier, Amsterdam
• note; Wang, Q., Johnson, J.K., Phase equilibrium of quantum fluids from simulation: Hydrogen and neon (1997) Fluid Phase Equilibria, 132, pp. 93-116
• Wang, Q., Johnson, J.K., Broughton, J.Q., Path integral grand canonical Monte Carlo (1997) J. Chem. Phys., 107, pp. 5108-5117
• note; Rayleigh, L., On the virial of a system of hard colliding bodies (1891) Nature (London), 45, pp. 80-82
• Tonks, L., The complete equation of state of one, two, and three-dimensional gases of hard elastic spheres (1936) Phys. Rev., 50, pp. 955-963
• Takahashi, H., A simple method for treating the statistical mechanics of one-dimensional substances (1942) Proc. Phys. Math. Soc. Jpn., 24, p. 60
• Gürsey, F., Classical statistical mechanics of a rectilinear assembly (1950) Proc. Cambridge Philos. Soc., 46, pp. 182-194
• Schmidt, K.E., Ceperley, D.M., Monte Carlo Techniques for Quantum Fluids, Solids and Droplets (1992) Monte Carlo Methods in Condensed Matter Physics, pp. 205-248. , edited by K. Binder Springer-Verlag, Berlin
• Krotscheck, E., Miller, M.D., Properties of 4He in one dimension Phys. Rev. B, , submitted
• Boninsegni, M., Moroni, S., Ground state of 4He in one dimension J. low Temp. Phys., , submitted
• Bruch, L.W., (1998), private communication; Giorgini, S., Boronat, J., Casulleras, J., Diffusion Monte Carlo study of two-dimensional liquid 4He (1996) Phys. Rev. B, 54, pp. 6099-6102
• Whitlock, P.A., Chester, G.V., Krishnamachari, B., Monte Carlo simulation of a helium film on graphite (1998) Phys. Rev. B, 58, pp. 8704-8715
• Kosterlitz, J.M., Thouless, D.J., Two dimensional physics (1978) Progress in low Temperature Physics VIIB, pp. 371-1335. , edited by D. F. Brewer Interscience, New York
• Derry, G., Wesner, D., Carlos, W.E., Frankl, D.R., Selective adsorption on 3He and 4He on the basal plane surface of graphite (1979) Surf. Sci., 87, pp. 629-642

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