An Ermakov–Pinney-like equation associated with the scalar wave equation in curved space-time is here studied. The example of Schwarzschild space-time considered in the present work shows that this equation can be viewed more as a “model equation,” with interesting applications in black hole physics. Other applications studied involve cosmological space-times (de Sitter) and pulse of plane gravitational waves: in all these cases the evolution of the Ermakov–Pinney field seems to be consistent with a rapid blow-up, unlike the Schwarzschild case where spatially damped oscillations are allowed. Eventually, the phase function is also evaluated in many of the above space-time models.
New solutions of the Ermakov-Pinney equation in curved spacetime / Bini, D; Esposito, G. - In: GENERAL RELATIVITY AND GRAVITATION. - ISSN 0001-7701. - 52:6(2020), pp. 60-1-60-19. [10.1007/s10714-020-02713-y]
New solutions of the Ermakov-Pinney equation in curved spacetime
ESPOSITO GSecondo
2020
Abstract
An Ermakov–Pinney-like equation associated with the scalar wave equation in curved space-time is here studied. The example of Schwarzschild space-time considered in the present work shows that this equation can be viewed more as a “model equation,” with interesting applications in black hole physics. Other applications studied involve cosmological space-times (de Sitter) and pulse of plane gravitational waves: in all these cases the evolution of the Ermakov–Pinney field seems to be consistent with a rapid blow-up, unlike the Schwarzschild case where spatially damped oscillations are allowed. Eventually, the phase function is also evaluated in many of the above space-time models.File | Dimensione | Formato | |
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