Publikation: Black hole solutions and pressure terms in induced gravity with Higgs potential
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2010
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Classical and Quantum Gravity. 2010, 27(24), 245003. Available under: doi: 10.1088/0264-9381/27/24/245003
Zusammenfassung
We study the quintessential properties of the black hole solutions in a scalar tensor theory of gravity with Higgs potential in view of the static and spherically symmetric line element. The Reissner Nordström-like and Schwarzschild black hole solutions are derived with the introduction of a series-expansion method to solve the field equations with and without Higgs field mass. The physical consequences of the black hole solutions and the solutions obtained in the weak field limit are discussed in detail by the virtue of the equation-of-state parameter, the scalar-field excitations and the geodesic motion. The appearance of naked singularities is also discussed together with the dependence of black hole horizons on the field excitations, which are themselves dependent on pressure terms which effectively screen the mass terms. A possible connection to flat rotation curves following the interaction with the scalar field is also presented in the weak field limit of gravity, together with a discussion of dynamical effects of scalar fields and pressure terms on mass.
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NANDAN, Hemwati, Nils Manuel BEZARES RODER, Heinz DEHNEN, 2010. Black hole solutions and pressure terms in induced gravity with Higgs potential. In: Classical and Quantum Gravity. 2010, 27(24), 245003. Available under: doi: 10.1088/0264-9381/27/24/245003BibTex
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title={Black hole solutions and pressure terms in induced gravity with Higgs potential},
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