• Corpus ID: 248496155

Effects of the acceleration on holographic complexity

@inproceedings{Nagasaki2022EffectsOT,
  title={Effects of the acceleration on holographic complexity},
  author={Koichi Nagasaki},
  year={2022}
}
In this work we consider a spacial kind of spacetime called AdS accelerating black holes. This is a kind of black holes which have a stringlike singularity along polar axises attached to the black hole and it accelerates the black hole. In these kind of spacetimes the growth of Einstein-Hilbert action is independent of the acceleration as found in [1]. By using a string as a probe, we found the effect of the acceleration is captured by the string prove [2]. Here in this work we consider the case… 

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References

SHOWING 1-10 OF 55 REFERENCES

Complexity growth of rotating black holes with a probe string

We study the effect of a probe string to black hole complexity according to the complexity equals action conjecture. Our system contains a particle moving on the boundary of black hole spacetime. In

Probe strings on AdS accelerating black holes

TLDR
The result is the growth of complexity is independent of acceleration but the string probe detects the effects of acceleration.

Holographic Complexity in AdS Accelerating Black Holes

In this paper, we investigate the holographic complexity growth rate of the AdS accelerating black hole with a small mass for Einstein gravity by using the “complexity equals action” (CA-duality). By

Holographic Complexity Equals Bulk Action?

TLDR
The hypothesis that black holes are the fastest computers in nature is discussed and the conjecture that the quantum complexity of a holographic state is dual to the action of a certain spacetime region that is called a Wheeler-DeWitt patch is illustrated.

On the Black Hole Acceleration in the C-metric Space-time

We consider the C-metric as a gravitational field configuration that describes an accelerating black hole in the presence of a semi-infinite cosmic string, along the accelerating direction. We adopt the

Holographic complexity for disentangled states

We consider the maximal volume and the action, which are conjectured to be gravity duals of the complexity, in the black hole geometries with end-of-the-world branes. These geometries are duals of

Thermodynamics of charged, rotating, and accelerating black holes

A bstractWe show how to obtain a consistent thermodynamic description of accelerating asymptotically AdS black holes, extending our previous results by including charge and rotation. We find that the

Holographic Complexity

For a field theory with a gravitational dual, following Susskind’s proposal we define holographic complexity for a subsystem. The holographic complexity is proportional to the volume of a codimension

First Law of Holographic Complexity.

TLDR
It is found the variation of holographic complexity for two nearby target states only depends on the end point of the optimal trajectory, a result which is designated the first law of complexity.

Accelerating a Black Hole in Higher Dimensions

Utilising the master equation with source for perturbations of the SchwarzschildTangherlini solution, we construct perturbative solutions representing a black hole accelerated by a string in higher
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