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Introduction to Ads/CFT for Nuclear physicists Sang-Jin Sin (Hanyang Resort 2011.02.28.

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Presentation on theme: "Introduction to Ads/CFT for Nuclear physicists Sang-Jin Sin (Hanyang Resort 2011.02.28."— Presentation transcript:

1 Introduction to Ads/CFT for Nuclear physicists Sang-Jin Sin (Hanyang U.) @Muju Resort 2011.02.28

2 Contents 1. Why AdS/CFT? 2. holographic QCD and RG Flow. 3. Finite Temperature and Confinement 1 4. History: from QCD string to D-brane 5. How AdS Emerges 6. AdS/CFT and its basic structure 7. Chemical potential 8. Finite Temperature and Confinement 2 9. What we can do with it.

3 1. Why AdS/CFT for Nuclear Physics? Shear viscosity /entropy density experiment: <0.1 for pQCD: for String Theory : 1/4 π =0.09 The method string theory used is AdS/CFT

4 Plan of the session: SJS : basic concepts Y. Kim: Bottom up Y. Seo: Top down K. Jo: Two point functions. Aim of the talk is a communication: what can we do together. After I show a few pictures, I will just answer your questions.

5 Geometrization of RG flow One way to view the AdS/CFT

6 Temperature

7 Confinement v.s deConfinement

8

9

10 History: from QCD string to D-brane Confinement  Flux string QCD string

11 . QCD string was good for Regge strajectory

12 Open string theory Spin 1 is a massless spectrum  photon, gluon?

13 History Bad for parton behavior So QCD string is good for low E and bad for the high energy. Negative beta function of QCD implied Asymptotic freedom. QCD string was dead in 1973.

14 Closed string 1974 Found graviton in Closed string Paradigm shift : alpha’ is changed from 1GeV to Plank scale.

15 D-brane Dirichlett boundary condition D-brane = black p-brane with charge. (Polchinski) Dp, Its vibration = open string modes closed string in warped geometry. If lambda>>1, gs<<1 Gravity description is valid. … too much constraint. Let go to board.

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17 Contents 1. Why AdS/CFT? 2. holographic QCD and RG Flow. 3. Finite Temperature and Confinement 1 4. History: from QCD string to D-brane 5. How AdS Emerges 6. AdS/CFT and its basic structure 7. Chemical potential 8. Finite Temperature and Confinement 2 9. What we can do with it.

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19 What can we do with it. Phase transition, equation of state. Two point function  Transports. Spectral fct Viscosity conductivity heat cd Elliptic flow(time dependence) Dissipation and energy loss. (dragging) Meson/Baryon spectrum Symmetry energy Lepto and Photo emission rate …….

20 Conclusion Almost everything can be calculated in terms of ads/cft. Model dependence and deviation from the real qcd is not controlled yet. Can we bypass qcd hqcd v.s exp?

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