![]() With this purpose in mind, we perform a QNM analysis of massive scalar field perturbations in the background of the eternal- Alcubierre-warp-drive spacetime. On the other hand, since the discovery of gravitational waves, the quasinormal modes (QNMs) of black holes have also been extensively studied. We find the same expression for the Hawking temperatures associated with the tunneling of both massive vector and scalar particles, and show this expression to be proportional to the velocity of the warp drive. In the present study, we use a recent eternal- warp-drive solution found by Alcubierre to study the effect of Hawking radiation upon an observer located within the warp drive in the framework of the quantum tunneling method. In a seminal paper, Alcubierre showed that Einstein's theory of general relativity appears to allow a super-luminal motion. Jusufi, Kimet Sakallı, İzzet Övgün, Ali Quantum tunneling and quasinormal modes in the spacetime of the Alcubierre warp drive Difficulties related to a practical realization of the hypermotion are indicated. Hawking's radiation does not prove to affect the ship interior considerably. The starship velocity has been shown to exceed the speed of light, with the local velocity relative to the deformed space-time being subluminal. The equations of starship geodesics have been solved. ![]() Parameters of the warp drive have been estimated. A superluminal motion (hypermotion) via M. The possibilities of interstellar flights for extraterrestrial civilizations have been considered. Galaxy travel via Alcubierre's warp drive
0 Comments
Leave a Reply. |