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An introduction to the Gravity/Fluid correspondence and its applications

An introduction to the Gravity/Fluid correspondence and its applications. Ya-Peng Hu College of Science, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China 2013.03.28 @ICTS, hefei. Outline. A. Introduction 1) AdS/CFT correspondence : a direct realization of the

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An introduction to the Gravity/Fluid correspondence and its applications

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  1. An introduction to the Gravity/Fluid correspondence and its applications Ya-Peng Hu College of Science, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China 2013.03.28 @ICTS, hefei

  2. Outline A. Introduction 1) AdS/CFT correspondence : a direct realization of the Holography principle 2) Gravity/Fluid correspondence: long wavelength limit in AdS/CFT correspondence; fundamental algorithm and procedure B. The first order dual hydrodynamics via Gravity/Fluid correspondence in the Gauss-Bonnet gravity C. Chern-Simons effects in Gravity/Fluid correspondence: anomalous magnetic and vortical effects D. Holographic charged fluid at finite cutoffsurface via Gravity/Fluid correspondence E. Conclusion and discussion

  3. A. Introduction 1) AdS/CFT correspondence : a direct realization of the Holography principle • Entropy of Black hole: S= f(A); S=A/4 • Holography principle: Gravity in the bulk is equivalent to a gauge theory on the boundary. ‘ t Hooft (‘93), Susskind (‘94)

  4. AdS/CFT correspondence: Type IIB string theory on AdS5 × S5 dual to N = 4 Super-Yang-Mills theory in 3+1 dimensions • General formalism: In the approximation of classical (super) gravity : classical (super) gravity action : boundary values of bulk fields : dual CFT operators.

  5. 2) Gravity/Fluid correspondence • Long wavelength limit in AdS/CFT correspondence: any quantum field effectively described by hydrodynamics; CFT becomes conformal fluid • Gravity/Fluid correspondence application: conformal viscous fluid stress tensor can be deduced from the dual gravity (hep-th/0712.2456) • Stress tensor of viscous fluid with conformal symmetry broken • Stress tensor of conformal viscous fluid

  6. Fundamental algorithm and procedure in Gravity/Fluid correspondence: Black brane solution  Boosted black brane solution  Perturbative black brane solution  Boundary stress tensor (or other quantities) in the bulk Stress tensor (or other quantities) of the dual fluid on the boundary • For example Black brane solution Boosted black brane solution

  7. Perturbative black brane solution Boundary stress tensor (asymptotical AdS5) Stress tensor of the dual fluid on the boundary

  8. B. The first order hydrodynamics via Gravity/Fluid correspondence in the Gauss-Bonnet gravity 1) G-B gravity • G-B gravity: action and equation

  9. 2) Solution: 5-dimensional black brane

  10. 3) Boosted black brane solution : boundary coordinates : boost velocities; constants : projector onto spatial directions : raise and lower the indices in boundary

  11. 4) Perturbative solution (to first order) • : slowly varying functions of the boundary coordinates; expanded around • Correction terms needed • Coefficients of the first order correction terms

  12. Perturbative solution to the first order: around • Perturbative solution to the first order: global; covariant

  13. 5) Boundary stress-tensor in the G-B gravity • Definition

  14. Explicit expression: • Non-zero components: Inserting global perturbative metric

  15. 6) Stress tensor of the conformal field on the boundary • Background metric: the dual conformal filed • Expectation value of the stress tensor of the dual conformal field • Stress tensor of the dual theory • Pressure and viscosity

  16. 7) Adding the Maxwell field • Action and solutions • Temperature and entropy density

  17. Solution in the Eddington-Finkelstin coordinate system • Solution in the boosted frame where • Perturbative solution: Similar as the case without Maxwell field; changed; New contents

  18. Stress tensor of the conformal field on the boundary • Conserved current of the conformal field on the boundary

  19. C. Chern-Simons effects in Gravity/Fluid correspondence 1) Maxwell Chern-Simons effect: anomalous magnetic and vortical effects (based on my two papers arXiv:1103.3773 Phys.Rev.D83:126003,2011 and arXiv:1112.4227) • G-B gravity with Maxwell Chern-simons: action and equations

  20. Black brane solution • Black brane Solution in the Eddington-Finkelstin coordinate

  21. Boosted black brane solution where • Perturbative solution

  22. Coefficients expressions

  23. Stress tensor of the dual fluid on the boundary • Charged current of the dual fluid on the boundary

  24. Notes: Anomalous magnetic and vortical effects: Charged current non-conserved: triangle anomalies New term: general case; physical or unphysical? The other special case:

  25. D. Holographic charged fluid with anomalous current at finite cutoffsurface 1) Einstein-Maxwell gravity with Chern-Simons term 2) RN-AdS black brane solution

  26. 3) RN-AdS black brane solution in Eddington-Finkelstin coordinate system New Coordinate Transformation:

  27. 4) Boosted RN-AdS black brane solution : boundary coordinates : boost velocities; constants : projector onto spatial directions : raise and lower the indices in boundary

  28. 5) Perturbative solution (to first order) 6) The stress tensor and Charged current of dual fluid

  29. 7) Coefficients Fixed by considering three conditions:

  30. 8)Final expressions of the stress tensor and charged current of dual fluid at finite cutoff surface

  31. E. Conclusion and discussion 1) Gravity/Fluid correspondence: long wavelength limit in AdS/CFT correspondence 2) Fundamental algorithm and procedure in Gravity/Fluid correspondence 3) Indeed deduce conformal viscous fluid in G-B gravity 4) The ratio of viscosity to entropy density: same as other methods 5) Entropy density: same as black brane solution 6) Considering Maxwell field in the bulk: dual charged current in the boundary

  32. 7) Chern-Simons effects in Gravity/Fluid correspondence: Anomalous magnetic and vortical effects; Hall viscosity; ……… 8) The anomalous magnetic and vortical effects 9) New term physical or unphysical? 10) Underlying relation between Topological insulator in condensate matter and Chern-Simons term? (PRB78,195424,2008)

  33. 11) Near the infinite boundary case: large 12) Entropy density and thermodynamic relations

  34. 13) The anomalous coefficients at the cutoff surface: Comparison at the infinite boundary surface: 14) Non-conformal fluid, zero bulk viscosity?

  35. Thanks!

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