Add to ORKGA detailed description of how black holes grow in full, non-linear general relativity is presented. The starting point is the notion of dynamical horizons. Expressions of fluxes of energy and angular momentum carried by gravitational waves across these horizons are obtained. Fluxes are local and the energy flux is positive. Change in the horizon area is related to these fluxes. A notion of angular momentum and energy is associated with cross-sections of the horizon and balance equations, analogous to those obtained by Bondi and Sachs at null infinity, are derived. These in turn lead to generalizations of the first and second laws of black hole mechanics. The relation between dynamical horizons and their asymptotic states --the isolated hori...
We consider a simple physical model for an evolving horizon that is strongly interacting with its en...
We present an introduction to dynamical trapping horizons as quasi-local models for black hole horiz...
In a companion paper [1], we have presented a cross-correlation approach to near-horizon physics in ...
A detailed description of how black holes grow in full, non-linear general relativity is presented. ...
A detailed description of how black holes grow in full, non-linear general relativity is presented. ...
A summary of how black holes grow in full, non-linear general relativity is presented. Specifically,...
A detailed description of how black holes grow in full, non-linear general relativity is presented. ...
Dynamical horizons are considered in full, non-linear general relativity. Expressions of fluxes of e...
Dynamical horizons are considered in full, non-linear general relativity. Expressions of fluxes of e...
Over the past three decades, black holes have played an important role in quantum gravity, mathemati...
Over the past three decades, black holes have played an important role in quantum gravity, mathemati...
Over the past three decades, black holes have played an important role in quantum gravity, mathemati...
This paper presents a quasi-local method of studying the physics of dynamical black holes in numeric...
This paper presents a quasi-local method of studying the physics of dynamical black holes in numeric...
This paper presents a quasi-local method of studying the physics of dynamical black holes in numeric...
We consider a simple physical model for an evolving horizon that is strongly interacting with its en...
We present an introduction to dynamical trapping horizons as quasi-local models for black hole horiz...
In a companion paper [1], we have presented a cross-correlation approach to near-horizon physics in ...
A detailed description of how black holes grow in full, non-linear general relativity is presented. ...
A detailed description of how black holes grow in full, non-linear general relativity is presented. ...
A summary of how black holes grow in full, non-linear general relativity is presented. Specifically,...
A detailed description of how black holes grow in full, non-linear general relativity is presented. ...
Dynamical horizons are considered in full, non-linear general relativity. Expressions of fluxes of e...
Dynamical horizons are considered in full, non-linear general relativity. Expressions of fluxes of e...
Over the past three decades, black holes have played an important role in quantum gravity, mathemati...
Over the past three decades, black holes have played an important role in quantum gravity, mathemati...
Over the past three decades, black holes have played an important role in quantum gravity, mathemati...
This paper presents a quasi-local method of studying the physics of dynamical black holes in numeric...
This paper presents a quasi-local method of studying the physics of dynamical black holes in numeric...
This paper presents a quasi-local method of studying the physics of dynamical black holes in numeric...
We consider a simple physical model for an evolving horizon that is strongly interacting with its en...
We present an introduction to dynamical trapping horizons as quasi-local models for black hole horiz...
In a companion paper [1], we have presented a cross-correlation approach to near-horizon physics in ...