论文信息 - Anisotropic charged analogue of Heintzmann’s solution - 字舞流文

Anisotropic charged analogue of Heintzmann’s solution

N. Pant | N. Pradhan

[1] J. Sunzu,et al. Charged anisotropic models for quark stars , 2014, 1412.8140.

[2] S. Maharaj,et al. Some charged polytropic models , 2013, 1310.0440.

[3] Y. K. Gupta,et al. Charged fluid to anisotropic fluid distribution in general relativity , 2013 .

[4] Y. K. Gupta,et al. A family of anisotropic super-dense star models using a space-time describing charged perfect fluid distributions , 2012 .

[5] S. Maharaj,et al. Regular models with quadratic equation of state , 2012, 1301.1418.

[6] P. Negi,et al. Variety of well behaved exact solutions of Einstein–Maxwell field equations: an application to Strange Quark stars, Neutron stars and Pulsars , 2012 .

[7] N. Pant,et al. Well Behaved Parametric Class of Exact Solutions of Einstein-Maxwell Field Equations in General Relativity , 2011 .

[8] Y. K. Gupta,et al. A family of well behaved charge analogues of a well behaved neutral solution in general relativity , 2011 .

[9] Y. K. Gupta,et al. A class of regular and well behaved relativistic super-dense star models , 2011 .

[10] S. Maharaj,et al. Charged anisotropic matter with a linear equation of state , 2008, 0810.3809.

[11] S. Maharaj,et al. Classes of exact Einstein–Maxwell solutions , 2007, 0808.1998.

[12] M. Malaver,et al. A comparative analysis of the adiabatic stability of anisotropic spherically symmetric solutions in general relativity , 2007 .

[13] V. Usov. Electric fields at the quark surface of strange stars in the color-flavor locked phase , 2004, astro-ph/0408217.

[14] M. Gleiser,et al. ANISTROPIC STARS: EXACT SOLUTIONS AND STABILITY , 2004, astro-ph/0401546.

[15] M. Gleiser,et al. Anisotropic Stars II: Stability , 2003, gr-qc/0303077.

[16] B. Ivanov. Static charged perfect fluid spheres in general relativity , 2002 .

[17] M. Gleiser,et al. Anisotropic Stars: Exact Solutions , 2000, astro-ph/0012265.

[18] I. Bombaci,et al. Strange stars with realistic quark vector interaction and phenomenological density-dependent scalar potential [Phys. Lett. B 438 (1998) 123] , 1998, astro-ph/9810065.

[19] K. Lake,et al. Physical acceptability of isolated, static, spherically symmetric, perfect fluid solutions of Einstein's equations , 1998, gr-qc/9809013.

[20] N. Pant. Uniform radial motion of sound in a relativistic fluid ball , 1996 .

[21] Pethick,et al. Transport and relaxation in degenerate quark plasmas. , 1993, Physical review. D, Particles and fields.

[22] N. Pant,et al. A new class of exact solutions in general relativity representing perfect fluid balls , 1993 .

[23] J. Madsen,et al. Burning a neutron star into a strange star , 1991 .

[24] A. Olinto. Converting neutron stars into strange stars , 1991 .

[25] D. Bhattacharya,et al. Formation and evolution of binary and millisecond radio pulsars , 1991 .

[26] Achim Weiss,et al. Stellar Structure and Evolution , 1990 .

[27] O. Benvenuto,et al. Strange Matter, Detonations and Supernovae , 1989 .

[28] W. Doroba. Strange stars: are they bare? , 1989 .

[29] O. Benvenuto,et al. On the Stability of Slow Neutron Combustion in Astrophysical Objects , 1988 .

[30] A. Olinto. On the conversion of neutron stars into strange stars , 1987 .

[31] A. Nelson,et al. Strange goings on in dense nucleonic matter , 1986 .

[32] A. Sah,et al. Class of solutions of Einstein's field equations for static fluid spheres , 1982 .

[33] Malcolm MacCallum,et al. Exact Solutions of Einstein's Field Equations , 2003 .

[34] B. Keister,et al. Free-quark phases in dense stars , 1976 .

[35] G. Baym,et al. Can a neutron star be a giant MIT bag , 1976 .

[36] E. Liang,et al. Anisotropic spheres in general relativity , 1974 .

[37] D. Scalapino. π - Condensate in Dense Nuclear Matter , 1972 .

[38] R. Sawyer. Condensedπ−Phase in Neutron-Star Matter , 1972 .

[39] B. Kuchowicz. Differential conditions for physically meaningful fluid spheres in general relativity , 1972 .

[40] M. Ruderman. Pulsars: Structure and Dynamics , 1972 .

[41] B. Kuchowicz. Two practical methods of solving Einstein's equations in isotropic coordinates , 1971 .

[42] H. Heintzmann. New exact static solutions of einsteins field equations , 1969 .

[43] F. Pacini,et al. Rotating Neutron Stars, Pulsars and Supernova Remnants , 1968, Nature.

[44] T. Gold. Rotating Neutron Stars as the Origin of the Pulsating Radio Sources , 1968, Nature.

[45] W. Bonnor,et al. Exact Solutions for Oscillating Spheres in General Relativity , 1967 .

[46] R. Wolf. Some Effects of the Strong Interactions on the Properties of Neutron-Star Matter , 1966 .

[47] R. Wolf,et al. NEUTRON STARS. II. NEUTRINO-COOLING AND OBSERVABILITY , 1965 .

[48] R. Wolf,et al. Neutron Stars. I. Properties at Absolute Zero Temperature , 1965 .

[49] A. Migdal. Superfluidity and the moments of inertia of nuclei , 1959 .

[50] M. Wyman. Radially Symmetric Distributions of Matter , 1949 .

[51] J. Oppenheimer,et al. On Massive neutron cores , 1939 .

[52] R. Tolman. Static Solutions of Einstein's Field Equations for Spheres of Fluid , 1939 .