Arbitrary Static, Spherically Symmetric Space-Times as Solutions of Scalar-Tensor Gravity
К. А. БронниковCenter fo Gravitation and Fundamental Metrology, VNIIMS, Ozyornaya ul. 46, Moscow, 119361, RussiaKodir BadalovDepartment of Theoretical Physics and Computer Science, Samarkand State University, 140104, Samarkand, UzbekistanRustam IbadovDepartment of Theoretical Physics and Computer Science, Samarkand State University, 140104, Samarkand, Uzbekistan
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Abstract
It is shown that an arbitrary static, spherically symmetric metric can be presented as an exact solution of a scalar-tensor theory (STT) of gravity with certain nonminimal coupling function $$f(\phi)$$ and potential $$U(\phi)$$ . The scalar field in this representation can change its nature from canonical to phantom on certain coordinate spheres. This representation, however, is valid in general not in the full range of the radial coordinate but only piecewise. Two examples of STT representations are discussed: for the Reissner–Nordström metric and for the Simpson–Visser regularization of the Schwarzschild metric (the so-called black bounce space-time).
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