Oblate hard spherocylinders - Revision history

Carl McBride: /* References */ Added a recent publication

2014-02-21T12:51:04Z

References: Added a recent publication

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	*[http://dx.doi.org/10.1080/08927020902833111 Bruno Martinez-Haya and Alejandro Cuetos "Simulation study of discotic molecules in the vicinity of the isotropic-liquid crystal transition", Molecular Simulation '''35''' pp. 1077-1083 (2009)]		*[http://dx.doi.org/10.1080/08927020902833111 Bruno Martinez-Haya and Alejandro Cuetos "Simulation study of discotic molecules in the vicinity of the isotropic-liquid crystal transition", Molecular Simulation '''35''' pp. 1077-1083 (2009)]
	*[http://dx.doi.org/10.1080/00268976.2011.649794 L. Wu, H.H. Wensink, G. Jackson and E.A. Müller "A generic equation of state for liquid crystalline phases of hard-oblate particles", Molecular Physics '''110''' pp. 1269-1288 (2012)]		*[http://dx.doi.org/10.1080/00268976.2011.649794 L. Wu, H.H. Wensink, G. Jackson and E.A. Müller "A generic equation of state for liquid crystalline phases of hard-oblate particles", Molecular Physics '''110''' pp. 1269-1288 (2012)]
			*[http://dx.doi.org/10.1080/00268976.2013.771802 Francisco Gámez, Rafael D. Acemel and Alejandro Cuetos "Demixing and nematic behaviour of oblate hard spherocylinders and hard spheres mixtures: Monte Carlo simulation and Parsons–Lee theory", Molecular Physics '''111''' pp. 3136-3146 (2013)]


	[[Category: Models]]		[[Category: Models]]

Carl McBride: /* References */ ~Added a recent publication

2012-06-19T09:36:40Z

References: ~Added a recent publication

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	*[http://dx.doi.org/10.1103/PhysRevE.49.3179 J. Šedlbauer, S. Labík, and A. Malijevský "Monte Carlo and integral-equation studies of hard-oblate-spherocylinder fluids", Physical Preview E '''49''' pp. 3179-3183 (1994)]		*[http://dx.doi.org/10.1103/PhysRevE.49.3179 J. Šedlbauer, S. Labík, and A. Malijevský "Monte Carlo and integral-equation studies of hard-oblate-spherocylinder fluids", Physical Preview E '''49''' pp. 3179-3183 (1994)]
	*[http://dx.doi.org/10.1080/08927020902833111 Bruno Martinez-Haya and Alejandro Cuetos "Simulation study of discotic molecules in the vicinity of the isotropic-liquid crystal transition", Molecular Simulation '''35''' pp. 1077-1083 (2009)]		*[http://dx.doi.org/10.1080/08927020902833111 Bruno Martinez-Haya and Alejandro Cuetos "Simulation study of discotic molecules in the vicinity of the isotropic-liquid crystal transition", Molecular Simulation '''35''' pp. 1077-1083 (2009)]
			*[http://dx.doi.org/10.1080/00268976.2011.649794 L. Wu, H.H. Wensink, G. Jackson and E.A. Müller "A generic equation of state for liquid crystalline phases of hard-oblate particles", Molecular Physics '''110''' pp. 1269-1288 (2012)]


	[[Category: Models]]		[[Category: Models]]

80.59.26.67: /* References */

2011-09-10T00:24:39Z

References

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	;Related reading		;Related reading
	*[http://dx.doi.org/10.1103/PhysRevE.49.3179 J. Šedlbauer, S. Labík, and A. Malijevský "Monte Carlo and integral-equation studies of hard-oblate-spherocylinder fluids", Physical Preview E '''49''' pp. 3179-3183 (1994)]		*[http://dx.doi.org/10.1103/PhysRevE.49.3179 J. Šedlbauer, S. Labík, and A. Malijevský "Monte Carlo and integral-equation studies of hard-oblate-spherocylinder fluids", Physical Preview E '''49''' pp. 3179-3183 (1994)]
	*[http://dx.doi.org/10.1080/08927020902833111 Bruno ~~Martiacutenez~~-Haya and Alejandro Cuetos "Simulation study of discotic molecules in the vicinity of the isotropic-liquid crystal transition", Molecular Simulation '''35''' pp. 1077-1083 (2009)]		*[http://dx.doi.org/10.1080/08927020902833111 Bruno Martinez-Haya and Alejandro Cuetos "Simulation study of discotic molecules in the vicinity of the isotropic-liquid crystal transition", Molecular Simulation '''35''' pp. 1077-1083 (2009)]
	[[Category: Models]]		[[Category: Models]]

Carl McBride: Added a publication

2011-03-10T11:57:16Z

Added a publication

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	[[Virial equation of state \| Virial coefficients]] <ref>[http://dx.doi.org/10.1007/BF01588945 I. Nezbeda and T. Boublík "Hard oblate spherocylinders: Monte carlo virial coefficients", Czechoslovak Journal of Physics '''27''' pp. 953-956 (1977)]</ref>		[[Virial equation of state \| Virial coefficients]] <ref>[http://dx.doi.org/10.1007/BF01588945 I. Nezbeda and T. Boublík "Hard oblate spherocylinders: Monte carlo virial coefficients", Czechoslovak Journal of Physics '''27''' pp. 953-956 (1977)]</ref>
	<ref>[http://dx.doi.org/10.1080/00268978900100861 W. R. Cooney, S. M. Thompson and K. E. Gubbins "Virial coefficients for the hard oblate spherocylinder fluid", Molecular Physics '''66''' pp. 1269-1272 (1989)]</ref>		<ref>[http://dx.doi.org/10.1080/00268978900100861 W. R. Cooney, S. M. Thompson and K. E. Gubbins "Virial coefficients for the hard oblate spherocylinder fluid", Molecular Physics '''66''' pp. 1269-1272 (1989)]</ref>
			==Isotropic-nematic transition==
			[[Isotropic-nematic phase transition]] <ref>[http://dx.doi.org/10.1016/j.cplett.2010.05.094 F. Gámez, P.J. Merkling and S. Lago "Parsons–Lee approach for oblate hard spherocylinders", Chemical Physics Letters '''494''' pp. 45-49 (2010)]</ref>.
	==Columnar phase==		==Columnar phase==
	Oblate hard spherocylinders form a [[columnar phase]] <ref>[http://dx.doi.org/10.1063/1.3028539 Alejandro Cuetos and Bruno Martínez-Haya "Columnar phases of discotic spherocylinders", Journal of Chemical Physics '''129''' 214706 (2008)]</ref>		Oblate hard spherocylinders form a [[columnar phase]] <ref>[http://dx.doi.org/10.1063/1.3028539 Alejandro Cuetos and Bruno Martínez-Haya "Columnar phases of discotic spherocylinders", Journal of Chemical Physics '''129''' 214706 (2008)]</ref>

Carl McBride: Added a reference

2011-03-04T11:03:34Z

Added a reference

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	[[Excluded volume]] <ref>[http://dx.doi.org/10.1080/00268970500077590 Bela M. Mulder "The excluded volume of hard sphero-zonotopes", Molecular Physics '''103''' pp. 1411-1424 (2005)]</ref>.		[[Excluded volume]] <ref>[http://dx.doi.org/10.1080/00268970500077590 Bela M. Mulder "The excluded volume of hard sphero-zonotopes", Molecular Physics '''103''' pp. 1411-1424 (2005)]</ref>.
	==Virial coefficients==		==Virial coefficients==
	[[Virial equation of state \| Virial coefficients]] <ref>[http://dx.doi.org/10.1080/00268978900100861 W. R. Cooney, S. M. Thompson and K. E. Gubbins "Virial coefficients for the hard oblate spherocylinder fluid", Molecular Physics '''66''' pp. 1269-1272 (1989)]</ref>		[[Virial equation of state \| Virial coefficients]] <ref>[http://dx.doi.org/10.1007/BF01588945 I. Nezbeda and T. Boublík "Hard oblate spherocylinders: Monte carlo virial coefficients", Czechoslovak Journal of Physics '''27''' pp. 953-956 (1977)]</ref>
			<ref>[http://dx.doi.org/10.1080/00268978900100861 W. R. Cooney, S. M. Thompson and K. E. Gubbins "Virial coefficients for the hard oblate spherocylinder fluid", Molecular Physics '''66''' pp. 1269-1272 (1989)]</ref>
	==Columnar phase==		==Columnar phase==
	Oblate hard spherocylinders form a [[columnar phase]] <ref>[http://dx.doi.org/10.1063/1.3028539 Alejandro Cuetos and Bruno Martínez-Haya "Columnar phases of discotic spherocylinders", Journal of Chemical Physics '''129''' 214706 (2008)]</ref>		Oblate hard spherocylinders form a [[columnar phase]] <ref>[http://dx.doi.org/10.1063/1.3028539 Alejandro Cuetos and Bruno Martínez-Haya "Columnar phases of discotic spherocylinders", Journal of Chemical Physics '''129''' 214706 (2008)]</ref>

Carl McBride at 15:08, 2 March 2011

2011-03-02T15:08:05Z

← Older revision		Revision as of 17:08, 2 March 2011
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	[[Image:oblate_spherocylinder.png\|thumb\|right]]		[[Image:oblate_spherocylinder.png\|thumb\|right]]
	The '''oblate hard spherocylinder''' model <ref>[http://dx.doi.org/10.1080/00268978400102401 M. Wojcik and K. E. Gubbins "Thermodynamics and structure of hard oblate spherocylinder fluids", Molecular Physics '''53''' pp. 397-420 (1984)]</ref>, also known as a discotic spherocylinder, consists of an impenetrable cylinder, surrounded by a torus.		The '''oblate hard spherocylinder''' model <ref>[http://dx.doi.org/10.1080/00268978400102401 M. Wojcik and K. E. Gubbins "Thermodynamics and structure of hard oblate spherocylinder fluids", Molecular Physics '''53''' pp. 397-420 (1984)]</ref>, also known as a discotic spherocylinder, consists of an impenetrable cylinder, surrounded by a torus whose major radius is equal to the radius of the cylinder, and whose minor radius is equal to half of the height of the cylinder.
	In the limit of zero diameter the oblate hard spherocylinder becomes a [[hard sphere model \| hard sphere]], and in the limit of zero width one has the [[Hard disks in a three dimensional space \| hard disk]]. A closely related model is that of the [[hard spherocylinders \| hard spherocylinder]].		In the limit of zero diameter the oblate hard spherocylinder becomes a [[hard sphere model \| hard sphere]], and in the limit of zero width one has the [[Hard disks in a three dimensional space \| hard disk]]. A closely related model is that of the [[hard spherocylinders \| hard spherocylinder]].
	==Overlap algorithm==		==Overlap algorithm==

Carl McBride at 13:02, 2 March 2011

2011-03-02T13:02:09Z

← Older revision		Revision as of 15:02, 2 March 2011
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	==Overlap algorithm==		==Overlap algorithm==
	An overlap algorithm is provided in the appendix of <ref>[http://dx.doi.org/10.1063/1.3552951 Matthieu Marechal, Alejandro Cuetos, Bruno Martínez-Haya, and Marjolein Dijkstra " Phase behavior of hard colloidal platelets using free energy calculations", Journal of Chemical Physics '''134''' 094501 (2011)]</ref>.		An overlap algorithm is provided in the appendix of <ref>[http://dx.doi.org/10.1063/1.3552951 Matthieu Marechal, Alejandro Cuetos, Bruno Martínez-Haya, and Marjolein Dijkstra " Phase behavior of hard colloidal platelets using free energy calculations", Journal of Chemical Physics '''134''' 094501 (2011)]</ref>.
			==Excluded volume==
			[[Excluded volume]] <ref>[http://dx.doi.org/10.1080/00268970500077590 Bela M. Mulder "The excluded volume of hard sphero-zonotopes", Molecular Physics '''103''' pp. 1411-1424 (2005)]</ref>.
	==Virial coefficients==		==Virial coefficients==
	[[Virial equation of state \| Virial coefficients]] <ref>[http://dx.doi.org/10.1080/00268978900100861 W. R. Cooney, S. M. Thompson and K. E. Gubbins "Virial coefficients for the hard oblate spherocylinder fluid", Molecular Physics '''66''' pp. 1269-1272 (1989)]</ref>		[[Virial equation of state \| Virial coefficients]] <ref>[http://dx.doi.org/10.1080/00268978900100861 W. R. Cooney, S. M. Thompson and K. E. Gubbins "Virial coefficients for the hard oblate spherocylinder fluid", Molecular Physics '''66''' pp. 1269-1272 (1989)]</ref>
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	<references/>		<references/>
	;Related reading		;Related reading
			*[http://dx.doi.org/10.1103/PhysRevE.49.3179 J. Šedlbauer, S. Labík, and A. Malijevský "Monte Carlo and integral-equation studies of hard-oblate-spherocylinder fluids", Physical Preview E '''49''' pp. 3179-3183 (1994)]
	*[http://dx.doi.org/10.1080/08927020902833111 Bruno Martiacutenez-Haya and Alejandro Cuetos "Simulation study of discotic molecules in the vicinity of the isotropic-liquid crystal transition", Molecular Simulation '''35''' pp. 1077-1083 (2009)]		*[http://dx.doi.org/10.1080/08927020902833111 Bruno Martiacutenez-Haya and Alejandro Cuetos "Simulation study of discotic molecules in the vicinity of the isotropic-liquid crystal transition", Molecular Simulation '''35''' pp. 1077-1083 (2009)]
	[[Category: Models]]		[[Category: Models]]

Carl McBride: tmp save

2011-03-02T12:18:30Z

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← Older revision		Revision as of 14:18, 2 March 2011
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	[[Image:oblate_spherocylinder.png\|thumb\|right]]		[[Image:oblate_spherocylinder.png\|thumb\|right]]
	The '''oblate hard spherocylinder''' model, also known as a discotic spherocylinder, consists of an impenetrable cylinder, surrounded by a torus.		The '''oblate hard spherocylinder''' model <ref>[http://dx.doi.org/10.1080/00268978400102401 M. Wojcik and K. E. Gubbins "Thermodynamics and structure of hard oblate spherocylinder fluids", Molecular Physics '''53''' pp. 397-420 (1984)]</ref>, also known as a discotic spherocylinder, consists of an impenetrable cylinder, surrounded by a torus.
	In the limit of zero diameter the oblate hard spherocylinder becomes a [[hard sphere model \| hard sphere]], and in the limit of zero width one has the [[Hard disks in a three dimensional space \| hard disk]]. A closely related model is that of the [[hard spherocylinders \| hard spherocylinder]].		In the limit of zero diameter the oblate hard spherocylinder becomes a [[hard sphere model \| hard sphere]], and in the limit of zero width one has the [[Hard disks in a three dimensional space \| hard disk]]. A closely related model is that of the [[hard spherocylinders \| hard spherocylinder]].
			==Overlap algorithm==
			An overlap algorithm is provided in the appendix of <ref>[http://dx.doi.org/10.1063/1.3552951 Matthieu Marechal, Alejandro Cuetos, Bruno Martínez-Haya, and Marjolein Dijkstra " Phase behavior of hard colloidal platelets using free energy calculations", Journal of Chemical Physics '''134''' 094501 (2011)]</ref>.
			==Virial coefficients==
			[[Virial equation of state \| Virial coefficients]] <ref>[http://dx.doi.org/10.1080/00268978900100861 W. R. Cooney, S. M. Thompson and K. E. Gubbins "Virial coefficients for the hard oblate spherocylinder fluid", Molecular Physics '''66''' pp. 1269-1272 (1989)]</ref>
			==Columnar phase==
			Oblate hard spherocylinders form a [[columnar phase]] <ref>[http://dx.doi.org/10.1063/1.3028539 Alejandro Cuetos and Bruno Martínez-Haya "Columnar phases of discotic spherocylinders", Journal of Chemical Physics '''129''' 214706 (2008)]</ref>
	==See also==		==See also==
	*[[Discotic liquid crystals]]		*[[Discotic liquid crystals]]
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	<references/>		<references/>
	;Related reading		;Related reading
			*[http://dx.doi.org/10.1080/08927020902833111 Bruno Martiacutenez-Haya and Alejandro Cuetos "Simulation study of discotic molecules in the vicinity of the isotropic-liquid crystal transition", Molecular Simulation '''35''' pp. 1077-1083 (2009)]
	[[Category: Models]]		[[Category: Models]]

Carl McBride at 11:30, 2 March 2011

2011-03-02T11:30:20Z

← Older revision		Revision as of 13:30, 2 March 2011
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	[[Image:oblate_spherocylinder.png\|thumb\|right]]		[[Image:oblate_spherocylinder.png\|thumb\|right]]
	The '''oblate hard spherocylinder''' model, also known as a discotic spherocylinder, consists of an impenetrable cylinder, surrounded by a torus.		The '''oblate hard spherocylinder''' model, also known as a discotic spherocylinder, consists of an impenetrable cylinder, surrounded by a torus.
			In the limit of zero diameter the oblate hard spherocylinder becomes a [[hard sphere model \| hard sphere]], and in the limit of zero width one has the [[Hard disks in a three dimensional space \| hard disk]]. A closely related model is that of the [[hard spherocylinders \| hard spherocylinder]].
	==See also==		==See also==
	*[[Discotic liquid crystals]]		*[[Discotic liquid crystals]]

Carl McBride: Started page

2011-03-02T11:18:52Z

Started page

New page

[[Image:oblate_spherocylinder.png|thumb|right]]
The '''oblate hard spherocylinder''' model, also known as a discotic spherocylinder, consists of an impenetrable cylinder, surrounded by a torus.

==See also==
*[[Discotic liquid crystals]]
*[[Hard spherocylinders]]
==References==
<references/>
;Related reading

[[Category: Models]]