Static fluid cylinders and their fields: global solutions
Bičák, J.; Ledvinka, T.; Schmidt, B. G; Žofka, M.
The global properties of static perfect-fluid cylinders and their external Levi-Civita fields are studied both analytically and numerically. The existence and uniqueness of global solutions is demonstrated for a fairly general equation of state of the fluid. In the case of a fluid admitting a non-vanishing density for zero pressure, it is shown that the cylinder's radius has to be finite. For incompressible fluid, the field equations are solved analytically for nearly Newtonian cylinders and numerically in fully relativistic situations. Various physical quantities such as proper and circumferential radii, external conicity parameter and masses per unit proper/coordinate length are exhibited graphically.
| type: | article |
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| journal: | Class. Quantum Grav. |
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| volume: | 21 |
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| nr: | 0 |
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| pages: | 1583-1608 |
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| year: | 2004 |
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| eprint: | arXiv:gr-qc/0403012 |
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| link: |
https://iopscience.iop.org/article/10.1088/0264-9381/21/6/019
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| grants: | Relativistic physics and astrophysics 2002-04, GAČR 202/02/0735; 2002-2004; hlavní řešitel: Jiří Bičák
Výzkum Země a vesmíru metodami teoretické počítačové a experimentální fyziky, výzkumný záměr MSM113200004; 2001-2004; hlavní řešitel: Jiří Bičák |
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