Add to ORKGBy using the method of group analysis, we obtain a new exact evolving and spherically symmetric solution of the Einstein–Cartan equations of motion, corresponding to a space–time threaded with a three-form Kalb–Ramond field strength. The solution describes in its more generic form, a space–time which scalar curvature vanishes for large distances and for large time. In static conditions, it reduces to a classical wormhole solution and to a exact solution with a localized scalar field and a torsion kink, already reported in literature. In the process we have found evidence towards the construction of more new solutions
In 6D general relativity with a scalar field as a source of gravity, a new type of static wormhole s...
We study the possible existence of static traversable wormholes without invoking exotic matter in th...
In 6D general relativity with a scalar field as a source of gravity, a new type of static wormhole s...
By using the method of group analysis, we obtain a new exact evolving and spherically symmetric solu...
By using the method of group analysis, we obtain a new exact evolving and spherically symmetric solu...
We studied spherically symmetric solutions in scalar-torsion gravity theories in which a scalar fiel...
We studied spherically symmetric solutions in scalar-torsion gravity theories in which a scalar fiel...
AbstractStatic spherically symmetric solutions in a background spacetime with torsion is derived exp...
AbstractStatic spherically symmetric solutions in a background spacetime with torsion is derived exp...
We consider the equations of motion of an anisotropic space-time in f(T) theory, where T is the tors...
Classical general relativity theory is torsion free. However, since general relativity and general ...
ABSTRACT: The compatibility of the gravitational field of spherical symmetry with the torsion of the...
New solution with constant torsion is derived using the field equations of f(T). Asymptotic form of ...
We find a family of exact solutions to the Einstein-Maxwell equations for rotating cylindrically sym...
We study the possible existence of static traversable wormholes without invoking exotic matter in th...
In 6D general relativity with a scalar field as a source of gravity, a new type of static wormhole s...
We study the possible existence of static traversable wormholes without invoking exotic matter in th...
In 6D general relativity with a scalar field as a source of gravity, a new type of static wormhole s...
By using the method of group analysis, we obtain a new exact evolving and spherically symmetric solu...
By using the method of group analysis, we obtain a new exact evolving and spherically symmetric solu...
We studied spherically symmetric solutions in scalar-torsion gravity theories in which a scalar fiel...
We studied spherically symmetric solutions in scalar-torsion gravity theories in which a scalar fiel...
AbstractStatic spherically symmetric solutions in a background spacetime with torsion is derived exp...
AbstractStatic spherically symmetric solutions in a background spacetime with torsion is derived exp...
We consider the equations of motion of an anisotropic space-time in f(T) theory, where T is the tors...
Classical general relativity theory is torsion free. However, since general relativity and general ...
ABSTRACT: The compatibility of the gravitational field of spherical symmetry with the torsion of the...
New solution with constant torsion is derived using the field equations of f(T). Asymptotic form of ...
We find a family of exact solutions to the Einstein-Maxwell equations for rotating cylindrically sym...
We study the possible existence of static traversable wormholes without invoking exotic matter in th...
In 6D general relativity with a scalar field as a source of gravity, a new type of static wormhole s...
We study the possible existence of static traversable wormholes without invoking exotic matter in th...
In 6D general relativity with a scalar field as a source of gravity, a new type of static wormhole s...