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Holographic gravity and the surface term in the Einstein-Hilbert action

T. Padmanabhan
(
- IUCAA, Pune
)

Dec, 2004

10 pages

Part of Decoherence, information, complexity and entropy. Proceedings, 2nd International Workshop, DICE 2004, Piombino, Italy, September 1-4, 2004

Published in:

Braz.J.Phys. 35 (2005) 362-372

Contribution to:

2nd International Workshop DICE2004: From Decoherence and Emergent Classicality to Emergent Quantum Mechanics

e-Print:

gr-qc/0412068 [gr-qc]

DOI:

10.1590/S0103-97332005000200023

View in:

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Abstract: (arXiv)

Certain peculiar features of Einstein-Hilbert (EH) action provide clues towards a holographic approach to gravity which is independent of the detailed microstructure of spacetime. These features of the EH action include: (a) the existence of second derivatives of dynamical variables; (b) a non trivial relation between the surface term and the bulk term; (c) the fact that surface term is non analytic in the coupling constant, when gravity is treated as a spin-2 perturbation around flat spacetime and (d) the form of the variation of the surface term under infinitesimal coordinate transformations. The surface term can be derived directly from very general considerations and using (d) one can obtain Einstein's equations {\it just from the surface term of the action}. Further one can relate the bulk term to the surface term and derive the full EH action based on purely thermodynamic considerations. The features (a), (b) and (c) above emerge in a natural fashion in this approach. It is shown that action

A_{grav}

splits into two terms

-S+\beta E

in a natural manner \textit{in any stationary spacetime with horizon}, where

E

is essentially an integral over ADM energy density and

S

arises from the integral of the surface gravity over the horizon. This analysis shows that the true degrees of freedom of gravity reside in the surface term of the action, making gravity intrinsically holographic. It also provides a close connection between gravity and gauge theories, and highlights the subtle role of the singular coordinate transformations.

Note:

Invited contribution to appear in the proceedings of: The Second International Workshop DICE2004 (Sept., 2004, Brazil) on "From Decoherence and Emergent Classicality to Emergent Quantum Mechanics". revtex; 12 pages; ver 3: key change in section III; clearer and simpler derivation of Einstein's equations, using only the surface term in the action, is provided

References(62)

Figures(0)

Vacuum quantum fluctuations in curved space and the theory of gravitation

A.D. Sakharov
(
- Lebedev Inst.
)

- Sov.Phys.Dokl. 12 (1968) 1040-1041,
- Dokl.Akad.Nauk Ser.Fiz. 177 (1967) 70-71,
- Sov.Phys.Usp. 34 (1991) 5, 394,
- Gen.Rel.Grav. 32 (2000) 365-367,
- Usp.Fiz.Nauk 161 (1991) 5, 64-66,
•
DOI:
- 10.1070/PU1991v034n05ABEH002498

Gravity as elasticity of spacetime: A Paradigm to understand horizon thermodynamics and cosmological constant

T. Padmanabhan
(
- IUCAA, Pune
)

- Int.J.Mod.Phys.D 13 (2004) 2293-2298
•
e-Print:
- gr-qc/0408051
•
DOI:
- 10.1142/S0218271804006358

On the microscopical structure of the classical spacetime

Marcelo Botta Cantcheff
(
- Rio de Janeiro, CBPF
)

e-Print:
- hep-th/0408151

Gravity and the thermodynamics of horizons

T. Padmanabhan
(
- IUCAA, Pune
)

- Phys.Rept. 406 (2005) 49-125
•
e-Print:
- gr-qc/0311036
•
DOI:
- 10.1016/j.physrep.2004.10.003

Quantum Field Theory in Curved Space-Time

Bryce S. DeWitt
(
- Texas U.
)

- Phys.Rept. 19 (1975) 295-357
•
DOI:
- 10.1016/0370-1573(75)90051-4

Probes of the vacuum structure of quantum fields in classical backgrounds

L. Sriramkumar
(
- Hebrew U.
)
,
T. Padmanabhan
(
- IUCAA, Pune
)

- Int.J.Mod.Phys.D 11 (2002) 1-34
•
e-Print:
- gr-qc/9903054
•
DOI:
- 10.1142/S0218271802001354

A Primer for black hole quantum physics

R. Brout
(
- Brussels U.
)
,
S. Massar
(
- Brussels U.
)
,
R. Parentani
(
- Ecole Normale Superieure
)
,
Ph. Spindel
(
- UMH, Mons
)

- Phys.Rept. 260 (1995) 329-454
•
e-Print:
- 0710.4345
•
DOI:
- 10.1016/0370-1573(95)00008-5

Quantum Field Theory, Horizons and Thermodynamics

- Adv.Phys. 30 (1981) 327-366,
- Adv. Phys. 30 ( 1981) 327-366
•
DOI:
- 10.1080/00018738100101457

Thermodynamics and / of horizons: A Comparison of Schwarzschild, Rindler and de Sitter space-times

T. Padmanabhan
(
- IUCAA, Pune
)

- Mod.Phys.Lett.A 17 (2002) 923-942
•
e-Print:
- gr-qc/0202078
•
DOI:
- 10.1142/S021773230200751X

Action Integrals and Partition Functions in Quantum Gravity

G.W. Gibbons
(
- Cambridge U.
)
,
S.W. Hawking
(
- Cambridge U.
)

- Phys.Rev.D 15 (1977) 2752-2756
•
DOI:
- 10.1103/PhysRevD.15.2752

Particle production and complex path analysis

K. Srinivasan
(
- IUCAA, Pune
)
,
T. Padmanabhan
(
- IUCAA, Pune
)

- Phys.Rev.D 60 (1999) 024007
•
e-Print:
- gr-qc/9812028
•
DOI:
- 10.1103/PhysRevD.60.024007

On the Quantum Structure of Horizons

T. Padmanabhan
(
- Tata Inst.
)

- Phys.Lett.B 173 (1986) 43-45,
- Phys. Lett. B173 ( 1986) 43-45
•
DOI:
- 10.1016/0370-2693(86)91227-X

Quantum structure of space-time and black hole entropy

T. Padmanabhan
(
- IUCAA, Pune
)

- Phys.Rev.Lett. 81 (1998) 4297-4300
•
e-Print:
- hep-th/9801015
•
DOI:
- 10.1103/PhysRevLett.81.4297

Event horizon: Magnifying glass for Planck length physics

T. Padmanabhan
(
- IUCAA, Pune
)

- Phys.Rev.D 59 (1999) 124012
•
e-Print:
- hep-th/9801138
•
DOI:
- 10.1103/PhysRevD.59.124012

Thermodynamics of space-time: The Einstein equation of state

Ted Jacobson
(
- Maryland U.
)

- Phys.Rev.Lett. 75 (1995) 1260-1263
•
e-Print:
- gr-qc/9504004
•
DOI:
- 10.1103/PhysRevLett.75.1260

On the Hawking wormhole horizon entropy

Hristu Culetu
(
- Ovidius U., Constanta
)

e-Print:
- hep-th/0409079

Can one understand black hole entropy without knowing much about quantum gravity?

Dmitri V. Fursaev
(
- Dubna, JINR
)

- Phys.Part.Nucl. 36 (2005) 81-99,
- Fiz.Elem.Chast.Atom.Yadra 36 (2005) 146-182
•
e-Print:
- gr-qc/0404038

Is gravity an intrinsically quantum phenomenon? Dynamics of gravity from the entropy of space-time and the principle of equivalence

T. Padmanabhan
(
- IUCAA, Pune
)

- Mod.Phys.Lett.A 17 (2002) 1147-1158
•
e-Print:
- hep-th/0205278
•
DOI:
- 10.1142/S0217732302007260

Gravity from space-time thermodynamics

T. Padmanabhan
(
- IUCAA, Pune
)

- Astrophys.Space Sci. 285 (2003) 407
•
e-Print:
- gr-qc/0209088
•
DOI:
- 10.1023/A:1025448712533

Why gravity has no choice: Bulk spacetime dynamics is dictated by information entanglement across horizons

T. Padmanabhan
(
- IUCAA, Pune
)

- Gen.Rel.Grav. 35 (2003) 2097-2103
•
DOI:
- 10.1023/A:1027389320807

The Holography of gravity encoded in a relation between entropy, horizon area and action for gravity

T. Padmanabhan
(
- IUCAA, Pune
)

- Gen.Rel.Grav. 34 (2002) 2029-2035
•
e-Print:
- gr-qc/0205090
•
DOI:
- 10.1023/A:1021171015146

Isolated horizon, Killing horizon and event horizon

Ghanashyam Date
(
- IMSc, Chennai
)

- Class.Quant.Grav. 18 (2001) 5219-5226
•
e-Print:
- gr-qc/0107039
•
DOI:
- 10.1088/0264-9381/18/23/315

Dynamical horizons and their properties

Abhay Ashtekar
(
)
,
Badri Krishnan
(
)

- Phys.Rev.D 68 (2003) 104030
•
e-Print:
- gr-qc/0308033
•
DOI:
- 10.1103/PhysRevD.68.104030

Black hole entropy and the Hamiltonian formulation of diffeomorphism invariant theories

J.David Brown
(
- North Carolina State U.
)

- Phys.Rev.D 52 (1995) 7011-7026
•
e-Print:
- gr-qc/9506085
•
DOI:
- 10.1103/PhysRevD.52.7011

Nonuniqueness of canonical field quantization in Riemannian space-time

Stephen A. Fulling
(
- Wisconsin U., Milwaukee
)

- Phys.Rev.D 7 (1973) 2850-2862
•
DOI:
- 10.1103/PhysRevD.7.2850

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