21,852 research outputs found
Charged anisotropic compact objects by gravitational decoupling
In the present article, we have constructed a static charged anisotropic
compact star model of Einstein field equations for a spherically symmetric
space-time geometry. Specifically, we have extended the charged isotropic
Heintzmann solution to an anisotropic domain. To address this work, we have
employed the gravitational decoupling through the so called minimal geometric
deformation approach. The charged anisotropic model is representing the
realistic compact objects such as and . We
have reported our results in details for the compact star on the
ground of physical properties such as pressure, density, velocity of sound,
energy conditions, stability conditions, Tolman-Oppenheimer-Volkoff equation
and redshift etc
Holographic Symmetries and Generalized Order Parameters for Topological Matter
We introduce a universally applicable method, based on the bond-algebraic
theory of dualities, to search for generalized order parameters in disparate
systems including non-Landau systems with topological order. A key notion that
we advance is that of {\em holographic symmetry}. It reflects situations
wherein global symmetries become, under a duality mapping, symmetries that act
solely on the system's boundary. Holographic symmetries are naturally related
to edge modes and localization. The utility of our approach is illustrated by
systematically deriving generalized order parameters for pure and
matter-coupled Abelian gauge theories, and for some models of topological
matter.Comment: v2, 10 pages, 3 figures. Accepted for publication in Physical Review
B Rapid Communication
- …