%0 Journal Article %T Non-Trivial Linkup of Both Compact-Neutron-Object and Outer-Empty-Space Metrics %A Lubo£¿ Neslu£¿an %J International Journal of Astronomy and Astrophysics %P 1-10 %@ 2161-4725 %D 2014 %I Scientific Research Publishing %R 10.4236/ijaa.2014.41001 %X

In 2011, Chinese researcher Ni found the solution of the Oppenheimer-Volkoff problem for a stable configuration of stellar object with no internal source of energy. The Ni¡¯s solution is the nonrotating hollow sphere having not only an outer, but an inner physical radius as well. The upper mass of the object is not constrained. In our paper, we contribute to the description of the solution. Specifically, we give the explicit description of metrics inside the object and attempt to link it with that in the corresponding outer Schwarzschild solution of Einstein field equations. This task appears to be non-trivial. We discuss the problem and suggest a way how to achieve the continuous linkup of both object-interior and outer-Schwarzschild metrics. Our suggestion implies an important fundamental consequence: there is no universal relativistic speed limit, but every compact object shapes the adjacent spacetime and this action results in the specific speed limit for the spacetime dominated by the object. Regardless our suggestion will definitively be proved or the successful linkup will also be achieved in else, still unknown way, the success in the linkup represents a constraint for the physical acceptability of the models of compact objects.

%K Ultra-Compact Objects %K Hollow Spheres %K Classical General Relativity %K Oppenheimer-Volkoff Problem %U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=43407