particle collision near 1+ 1 dimensional horava-lifshitz black holes
TRANSCRIPT
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Particle Collision near 1+1-DHorava-Lifshitz Black Holes
M. Halilsoy & A. OvgunEastern Mediterranean University (EMU)
arXiv:1504.03840 [gr-qc]
QDIS14 Famagusta, Northern Cyprus
2 May 2015
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
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Outline
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
MOTIVATION
1+1-D HL BLACK HOLES
CM ENERGY OF PARTICLE COLLISION NEAR THE
HORIZON OF THE 1+1 -D HL BLACK HOLE
SOME EXAMPLES
HAWKING PHOTON VERSUS AN INFALLING
PARTICLE
CONCLUSION
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Motivation
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
Banados, Silk, West (BSW Effect),
Phys. Rev. Lett. 103, 111102 (2009).
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Motivation
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
Is it also valid for near horizon of a black
hole emerges even in 1+1- dimensional
Hořava-Lifshitz gravity ?
Banados, Silk, West (BSW Effect),
Phys. Rev. Lett. 103, 111102 (2009).
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M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
1+1-D HL BLACK HOLES
The line element is
where a general class of solutions is obtained as follows
In the case of and , it
gives a Schwarzschild-like solution;
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1+1-D HL BLACK HOLES
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
On the other hand, the choice of the parameters, for ,
gives a Reissner--Nordström-like solution.
The new black hole solution which is derived by Bazeia
et. al. is found by taking
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1+1-D HL BLACK HOLES
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
This solution develops the following horizons
As they degenerate, i.e.
The Hawking temperature is given in terms of the outer
horizon as follows
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1+1-D HL BLACK HOLES
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
For the special case
the horizons are independent of the mass :
The temperature is then given simply by
This is a typical relation between the Hawking temperature
and the mass of black holes in dimensions
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CM ENERGY OF PARTICLE COLLISION NEAR THE
HORIZON OF THE 1+1 -D HL BLACK HOLE
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
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CM ENERGY OF PARTICLE COLLISION NEAR THE
HORIZON OF THE 1+1 -D HL BLACK HOLE
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
Lagrangian equation
The canonical momenta calculated as
Hence,
and by using the normalization
condition for time-like particles
t
E
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CM ENERGY OF PARTICLE COLLISION NEAR THE
HORIZON OF THE 1+1 -D HL BLACK HOLE
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
The two-velocities can be written as,
The CM energy is given by
t
E
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CM ENERGY OF PARTICLE COLLISION NEAR THE
HORIZON OF THE 1+1 -D HL BLACK HOLE
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
The lowest order term gives the CM energy of two
particles as
There are two cases for this CM energy, when 0 ,
the CM energy is reduced to
which is unbounded for
when
t
E
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SOME EXAMPLES
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
Schwarzchild-like Solution:
Reissner-Nordstrom-like solution:
When the location of particle 1 which has positive energy
approachs the horizon , on the other hand the particle 2
escaping from the horizon with negative energy might give
us the BSW effect
t
E
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SOME EXAMPLES
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
The Non-Black Hole case:
The Extremal case of the Reissner-Nordstrom like black
hole:
Specific New Black Hole Case:
t
E
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HAWKING PHOTON VERSUS AN INFALLING PARTICLE
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
The massless photon of such an emission can naturally scatter an infalling
particle or vice versa. This phenomenou is analogous to a Compton
scattering taking place in 1+1-dimensions. Null-geodesics for a photon can
be described simply by
The center-of-mass energy of a Hawking photon and the infalling particle
can be taken now as
t
E
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HAWKING PHOTON VERSUS AN INFALLING PARTICLE
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
The center-of-mass energy of a Hawking photon and the infalling particle
can be taken now as
In the near horizon limit this reduces to
Note that for we have
which is finite and therefore is not of interest. On the other hand for
we obtain an unbounded one.
t
E
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CONCLUSION
M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]
Our aim is to show that the BSW effect which arises in
higher dimensional black holes applies also in the 1+1- D.
In other words the strong gravity near the event horizon
effects the collision process with unlimeted source to
turn it into a natural accelerator.
Key property: presence of event horizon plus critical
particle
Finally, we must admit that absence of rotational effects in
1+1- D confines the problem to the level of a toy model.
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M.Halilsoy, A.Ovgun Particle Collision near 1+1-D Horava-Lifshitz Black Holes arXiv:1504.03840 [gr-qc]