1987
DOI: 10.1063/1.453189
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Molecular dynamics of hard spheres. II. Hard spheres in a spherical cavity

Abstract: The equation of state for hard spheres in a spherical cavity is calculated and compared with the results previously found when the containing boundary was a channel. It was found that the spherical surface provides a focusing effect on both the pressure and the compressibility factor. An examination of the results suggested that the density and compressibility factors could be expanded in a series of Maxwellian functions. It was found that a six-term series which was modified in the immediate vicinity of the w… Show more

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Cited by 28 publications
(21 citation statements)
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“…Numerical methods for solving these integral equations for a hardsphere fluid are described in w 4. Quantitative results are discussed and compared with simulation results [4,5] in w 5. For simplicity, we focus in this paper on a one-species hard-sphere system of particles inside hard spherical and slit pores.…”
Section: Introductionmentioning
confidence: 97%
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“…Numerical methods for solving these integral equations for a hardsphere fluid are described in w 4. Quantitative results are discussed and compared with simulation results [4,5] in w 5. For simplicity, we focus in this paper on a one-species hard-sphere system of particles inside hard spherical and slit pores.…”
Section: Introductionmentioning
confidence: 97%
“…Recently, the structure and thermodynamics of fluids inside micropores have attracted wide attention [1][2][3][4][5][6][7][8][9][10][11]. This is because such systems are not only related to various separation processes such as adsorption, exclusion chromatography and membrane transport, but they also exhibit a richer variety of thermodynamic [1] and structural behaviour than bulk fluid systems.…”
Section: Introductionmentioning
confidence: 99%
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“…Simulations have been used to study fluids adsorbed in slit pores (Sarman, 1990;Somers and Davis, 1992;Murad et al, 1993;Han et al, 1993;Tan and Gubbins, 1992;Somers et al, 1993;Schoen et al, 1989;Jiang et al, 1993), cylindrical pores Suh, 1987, 1989;Groot et al, 1987;Antonchenko et al, 1988;Bratko et al, 1989;Heinbuch and Fischer, 1987;Glandt, 1980;Derouane and Lucas, 1988;Peterson et al, 1986;Peterson and Gubbins, 1987;Walton and Quirke, 1989;Saito and Foley, 1990;Demi, 1991), and spherical pores (Macpherson et al, 1987;Carignan et al, 1988;Dunne and Myers, 1994).…”
Section: Introductionmentioning
confidence: 99%
“…Despite its appealing simplicity, there have been relatively few studies of fluids in spherical cavities [3][4][5][6], most investigators preferring slit and cylindrical capillaries [7]. Earlier work for small cavities includes virial expansions of the grand potential [3,4], integral equation theories [5], and computer simulation [6]. Direct calculation of the partition functions can be made for cavities containing up to about six atoms [4].…”
Section: Introductionmentioning
confidence: 99%