new perspective for qcd: string /gauge duality evidence for qcd as an effective string theory...
TRANSCRIPT
New Perspective for QCD: String/Gauge Duality
• Evidence for QCD as an Effective String Theory• Maldacena’s Counter Revolution: Gauge/Gravity Duality• Re-discovery of QCD String and Extra Dimensions • QCD in Strong Coupling: Hard vs Soft Pomeron in AdS
Background
Confronting String Theory with High Energy ScatteringConfronting String Theory with High Energy Scattering
Small-x and Diffraction, FNAL, 2003----Chung-I Tan, Brown
I. Evidence for QCD as String Asymptotic Freedom Confinement
Force at Long Distance--Constant. Tension/Linear Potential, coupling increasing, Quarks and Gluons strongly bound <==> “Stringy Behavior”
String Modes: Vibrational Modes and Rotational Modes
Tests for String Excitations• Open String <===> Mesons• Closed String <===> Glueballs• String Junction <===> Baryons
• Open String with Fixed Sources
Can be tested using Lattice Gauge Theory:
Discrete sites ---> Finite Variables Positive Euclidean Action ---> Numerical Simulation
Phenomenological tests <====> Moriond proceedings last 30 years
Wilson Loop as Surface Sum
Searching for evidence of String!
Recent Results of Martin Luscher et al.
• String Excitation Energies can be measured by Wilson Loop Correlation function,
• Precision measurement ==> effective bosonic string.
• Further “structure” yet to be understood.
M. Luscher and P. Weisz, J. H. E. Physics, 07 (2002) 328
K. J. Junge, J. Kuti, C. Morningstar, hep-lat/0207004
Luscher’s Conclusion
II. String/Gauge Duality
Early String Theories ==> Theory of Everything
Maldacena ==> New Era for YM Theories
How Can QCD be a String Theory? Topological Expansion
“Failure” of Superstrings in Flat-Spacetime (1973~1998)
• Zero mass states: (gauge/graviton)
• Extra dimensions: D=4+6=10
• Supersymmetries:
• No Hard Scattering:
AdS/CFT Duality (1998--)
• Strong-Weak Dual• Example: Ising-model--(high-low temp.)• 4d “Gauge” dual to “Geometry” in higher dim• Absence of 4 dim-Graviton• Wilson loop expectation ~ sum over surfaces in the bulk
with loop in boundary
4d YM Theories at weak coupling is dual to higher dim String Theories with deformed AdS Background.
Maldacena’s String Counter Revolution
Open String <=====> Closed String
dualityYM Wilson Loops <---> Expectation Values in Bulk!
Minor Problem: Wilson Loop in AdS/CFT
For rectangular loop: Extension into minimum surface in r-dir
Surface into AdS space
Zero Tension for QCD String---> Unacceptable
III. Re-discovering QCD String
Witten’s proposal---AdS/BH metric
•Deformed AdS Space, Massive Graviton•Soft Pomeron and Tensor Glueball•QCD String Tension
Breaking Supersymmetry
Witten Proposal
AdS/BH metric
Minimum Surface for Wilson Loop
M. Luscher and P. Weisz, J. H. E. Physics, 07 (2002) 328
VI. QCD in Strong Coupling and HE Scattering
• IR Physics--Glueballs as AdS Gravitons at strong coupling.
• UV Physics--Parton counting rules for wide-angle scattering.
• Stringy Deconfinement. Fat vs Thin Strings.
• Hagedorn Transition (aka deconfinement ?)
• Pomeron as Massive Graviton.
• BFKL Pomeron, Regge, DIS, Froissart Bound, ………..
QCD after Brane Revolution
• Effective degrees of freedom---massless fields of type IIA String theory
• Confinement by AdS/BH background
New chapter for non-perturbative QCD
Weak Coupling --> Perturbative QCD : unchanged
Confinement --> Dual description in AdS : weak field approx.
Glueball Spectrum
R. Brower, S. Mathur, and C-I Tan, hep-th/0003115, “Glueball Spectrum of QCD from AdS Supergravity Duality”.
Pomeron in Gauge/Gravity Duality
• Pomeron as Massive Graviton!• Intercept “lowered” from 2! • Interpolate with BFKL due to “hard” at AdS Bdry.
Physics at Different QCD Scales in AdS Space
Tensor Glueball/Graviton Wave functions
n=1 n=3
n=8 Potential
n=0
Randall-Sundram gravitonrmin
r
QCD Rutherford Experiment
At WIDE ANGLES QCD exhibits power law behavior:
where n= i ni is the number of ``partons'' in external lines.
Actually QCD is only conformal up to small asymptotic freedom logs.
The OPE gives
in terms of the lowest twist i.
Wide Angle ScatteringThe 2-to-m glueball scattering amplitude T(p1,p2,L, pm+2) for plane wave glueball:
This is a check on the underlining universality of Maldacena's duality conjecture.
scatter via the string(M-theory) amplitude: A(pi, ri, Xi) in the 10-d (or 11-d) bulk space (x,r,Y):
• AdS5 £ X with IR cut-off on r > rmin or 10-d IIB string theory• AdS7 £ S4$ Black Hole with horizon r = rmin or 11-d M-theory.
We now discuss two different approaches to the QCD string that both give thecorrect parton scaling formula.
10-d String theory ApproachDue to the Red Shift in the Warped Co-ordinate , s = (R/r) x ,a plane wave glueball, exp[i x p], scatters with a local proper momentum,
String is UV shifted in the YM’s IR. (This is the so called UV/IR connection.) THUS wide angle scattering IS exponentially suppressed in the region r2 [rmin,rscatt]
HOWEVER there is a small remaining amplitude at large r that that gives the correct conformal scaling of the naive parton model!
E.g for a scalar glueball » r-4 corresponding to ni = 4 for the YM operator, Tr[F2], in exact agreement with the parton result.
Summary on Hard Scattering
(3) Compared with lowest order perturbative results:
(1) AdS5 Hard Scattering (Polchinski-Strassler):
WHY is it same QCD perturbative result with g2N ! (g2N)^2?
(2) AdS7 Hard Scattering (Brower-Tan):
WHY does this only depend on the string tension?
Soft vs Hard Regge ScatteringSimilar arguments can be applied to the Regge limit: s >> -t
Dominant scattering at large r, gives a BFKL-like Pomeron with almost flat ``trajectory'' (actually a cut in the j-plane)
The IR region, r ' rmin, gives soft Regge pole with slope 'qcd » ' R3/r3min
The ``shrinkage'' of the Regge peak is caused the soft stringy ``form factor'' in impact parameter:
V. Future Developments
• Improved Confining Background
• Challenges: BFKL, Froissart bound, Massless Quarks, Chiral Symmetry, ……..
• …………..
• Beyond strong coupling or Strong Gravity.
See you at next FNAL Small-x Meeting!