Theory of (strongly coupled) quark-gluon plasma (sQGP)Theory of (strongly coupled) quark-gluon plasma (sQGP)
From RHIC to LHCFrom RHIC to LHC(31st J.Hopkins workshop,(31st J.Hopkins workshop,
Heidelberg, Aug.2007)Heidelberg, Aug.2007)
Edward ShuryakEdward ShuryakStony BrookStony Brook
From RHIC to LHCFrom RHIC to LHC(31st J.Hopkins workshop,(31st J.Hopkins workshop,
Heidelberg, Aug.2007)Heidelberg, Aug.2007)
Edward ShuryakEdward ShuryakStony BrookStony Brook
The emerging theory of sQGP
sQGP
Plasma physics
Manybody theory
Lattice simulations
Gauge theories,SUSY models
String theory
AdS/CFT
Monopoles
Quantum mechanics
QuasiparticlesPotentialscorrelators
Bound states of EQP and MQPJ/psi,mesons,baryons,calorons
Stronly coupledcold trappedatoms
Moleculardynamics
Transport properties
E/M duality
EoSHydrodynamics
Energy loss,Collective modesMach cones
Flux tubes->
Bose-EinsteinCondensation->confinement RHIC
data
OutlineOutlineQs: Why do we have strongly coupled quark-gluon plasma
(sQGP) at RHIC? Is it related to deconfinement (T=(1-1.5)Tc) or quasi-conformal behaviour at $T>1.5Tc? What is the role of magnetic objects? Can one explain RHIC results using AdS/CFT? A picture is emerging…
RHIC findings: collective flows and jet quenching
Viscosity and diffusion constant from AdS/CFT, complete gravity dual?
Phase diagram and lattice. Electric and magnetic quasiparticles (EQPs and MQPs) are fighting for dominance (J.F.Liao,ES, hep-ph/0611131,PRC 07) Flux tube existence/dissolution (J.F.Liao,ES, 0706.4465[hep-ph])molecular dynamics (MD) of Non-Abelian plasma with monopoles(B.Gelman, I.Zahed,ES, PRC74,044908,044909 (2006), J.F.Liao,ES, hep-ph/0611131,PRC 07)
trasport summary=> What should one find at LHC? summary
Qs: Why do we have strongly coupled quark-gluon plasma (sQGP) at RHIC? Is it related to deconfinement (T=(1-1.5)Tc) or quasi-conformal behaviour at $T>1.5Tc? What is the role of magnetic objects? Can one explain RHIC results using AdS/CFT? A picture is emerging…
RHIC findings: collective flows and jet quenching
Viscosity and diffusion constant from AdS/CFT, complete gravity dual?
Phase diagram and lattice. Electric and magnetic quasiparticles (EQPs and MQPs) are fighting for dominance (J.F.Liao,ES, hep-ph/0611131,PRC 07) Flux tube existence/dissolution (J.F.Liao,ES, 0706.4465[hep-ph])molecular dynamics (MD) of Non-Abelian plasma with monopoles(B.Gelman, I.Zahed,ES, PRC74,044908,044909 (2006), J.F.Liao,ES, hep-ph/0611131,PRC 07)
trasport summary=> What should one find at LHC? summary
RHIC findingsRHIC findings
Strong radial and elliptic flows are very Strong radial and elliptic flows are very well described by ideal hydro => well described by ideal hydro => ``perfect liquid”``perfect liquid”
Strong jet quenching, well beyond Strong jet quenching, well beyond pQCD gluon radiation rate, same for pQCD gluon radiation rate, same for heavy charm quarks (b coming) heavy charm quarks (b coming)
Jets destroyed and their energy goes Jets destroyed and their energy goes into hydrodynamical ``conical flow” into hydrodynamical ``conical flow”
Strong radial and elliptic flows are very Strong radial and elliptic flows are very well described by ideal hydro => well described by ideal hydro => ``perfect liquid”``perfect liquid”
Strong jet quenching, well beyond Strong jet quenching, well beyond pQCD gluon radiation rate, same for pQCD gluon radiation rate, same for heavy charm quarks (b coming) heavy charm quarks (b coming)
Jets destroyed and their energy goes Jets destroyed and their energy goes into hydrodynamical ``conical flow” into hydrodynamical ``conical flow”
From Magdeburg hemispheres (1656) to dreams of 1970’s…
•“We cannot pump the QCD vacuum out, but we can pump in something else, namely the Quark-Gluon Plasma, and measure explosion”
(QGP in 1970’s was expected to be just a simple near-ideal quark-gluon gas, to ``fill the bag”)
(air pumped out from Magdeburg hemispheresby von Guericke)
One may have an absolutely correct theory and still
make accidental discoveries…
One may have an absolutely correct theory and still
make accidental discoveries…Columbus believed if he goes west he should eventually come to India
But something else was on the way…
We believed if we increase the energy density, we should eventually get weakly interacting QGP. But something else was found on the way, sQGP
How Hydrodynamics Works at RHIC
How Hydrodynamics Works at RHIC
Elliptic flowElliptic flowHow does the system respond to initial spatial How does the system respond to initial spatial
anisotropy?anisotropy?
)
Dense or dilute?Dense or dilute?If dense, thermalization?If dense, thermalization?
If thermalized, EoS?If thermalized, EoS?
Elliptic flow with ultracold trapped Li6 atoms, a=> infinity regime
The system is extremely dilute, but can be put into a hydro regime, with an elliptic flow, if it is specially tuned into a strong coupling regime via the so called Feshbach resonanceSimilar mechanism was proposed (Zahed and myself) for QGP, in which a pair of quasiparticles is in resonance with their bound state at the “zero binding lines”
The coolest thing on Earth, T=10 nK or 10^(-12) eV can actually produce a
Micro-Bang ! (O’Hara et al, Duke )
2001-2005: hydro describes radial and elliptic flows for all secondaries , pt<2GeV, centralities, rapidities, A (Cu,Au)…
Experimentalists were very sceptical but wereconvinced and ``near-perfect liquid” is now official,
=>AIP declared this to be discovery #1 of 2005 in physics v_2=<cos(2 phi)>
PHENIX,
Nucl-ex/0410003
red lines are for ES+Lauret+Teaney done before RHIC data, never changed or fitted, describes SPS data as well! It does so because of the correct hadronic matter /freezout via (RQMD)
proton pion
One more surprize from RHIC: strong jet quenching and flow of heavy quarks
Heavy quark quenching as strong as for light gluon-q jets!
Radiative energy loss only fails to reproduce v2
HF.
Heavy quark elliptic flow: v2
HF(pt<2GeV) is about the same as for all hadrons!=>Small relaxation time or diffusion coefficient DHQ
inferred for charm.
nucl-ex/0611018(submitted to Phys. Rev. Lett.)
Sonic boom from quenched jets Casalderrey,ES,Teaney, hep-ph/0410067; H.Stocker…
• the energy deposited by jets into liquid-like strongly coupled QGP must go into conical shock waves
• We solved relativistic hydrodynamics and got the flow picture
• If there are start and end points, there are two spheres and a cone tangent to both
Wake effect or “sonic boom”
Two hydro modes can be excited(from our linearized hydro solution):
a a ``diffuson” a ``diffuson” a soundsound
2 Mach cones in strongly coupled plasmas
(thanks to B.Jacak)
PHENIX jet pair distribution
Note: it is only projection of a cone on phi
Note 2: more
recent data from
STAR find also a minimum in
<p_t(\phi)> at
180 degr., with
a value
Consistent with background
The most peripheral bin, here no matter
AdS/CFTfrom gravity in curved extra dimensions to strongly coupled CFT plasma
AdS/CFTfrom gravity in curved extra dimensions to strongly coupled CFT plasma
whatever people dream about whatever people dream about for LHC, a black hole formation for LHC, a black hole formation does happen, does happen, in each and in each and every RHIC AuAu event every RHIC AuAu event =>=> thermalization (All info thermalization (All info is lost except overall is lost except overall entropy, area of formed entropy, area of formed b.h.horizon)b.h.horizon)
whatever people dream about whatever people dream about for LHC, a black hole formation for LHC, a black hole formation does happen, does happen, in each and in each and every RHIC AuAu event every RHIC AuAu event =>=> thermalization (All info thermalization (All info is lost except overall is lost except overall entropy, area of formed entropy, area of formed b.h.horizon)b.h.horizon)
viscosity from AdS/CFT (Polykastro,Son, Starinets 03)
Kubo formula <Tij(x)T_ij(y)>=>
• Left vertical line is our 4d Universe, (x,y are on it)
• Temperature is given by position of a horizon (vertical line, separationg
• From interier of``black brane” T=T(Howking radiation) (Witten 98)
• Correlator needed is just a graviton propagator G(x,y)
• Blue graviton path does not contribute to Im G, but
the red graviton path (on which it is absorbed) does
Both viscosity and entropy are proportional to b.h. horizon, thus such a simple asnwer
€
η /s =1/4π
€
η /s = hbar /4π
€
η /s = hbar /4π
Heavy quark diffusion J.Casalderrey+ D.Teaney,hep-ph/0605199,hep-th/0701123
WORLD
ANTIWORLD
One quark (fisherman) isIn our world,The other (fish) in Antiworld (=conj.amplitude)String connects them and conduct waves in one direction through the black hole
Left: P.Chesler,L.YaffeUp- from Gubser et al
Both groups made Amasingly detailedDescription of the conical flow from AdS/CFT=> not much is diffused
subsonic
supersonic
Gravity dual to the whole collision: “Lund model” in AdS/CFT
• Black Hole creation in heavy ion collisions
(Nastase 03, Sin,ES and Zahed 04,Janik-Peschanski 05…)
If colliding objects made of heavy quarks • Stratching strings -- unlike Lund model those are
falling under the AdS gravity (Lin,ES hep-ph/0610168) and don’t breake!
• The falling membrane is created which separate two regions of two different metrics: it is becoming a b.h. horizon
Now linearized version in progress (field from a static Maldacena string recently done Lin,ES arXiv:0707.3135, T00 ->1/r7 )
AdS5
Center=
Extremal b.h.
Explaining transport in sQGP:Classical QGP and its Molecular Dynamics
Explaining transport in sQGP:Classical QGP and its Molecular Dynamics
Electrons have the same charge -e at all time,
but our quasiparticles (quarks, gluons,…) have colors
which is changing in time
Fraction of quasiparticles are magnetically Charged (monopoles and dyons). At T<Tc they make a “dual superconductor”=>confinement. At T>Tc theyfight each other
As Gamma= <|Epot|>/<Ekin> grows gas => liquid => solid
• This is of course for +/- Abelian charges,
• But ``green” and ``anti-green” quarks do the same!
•local order would be preserved in a liquid also,
as it is in molten solts (strongly coupled TCP with <pot>/<kin>=O(60), about 3-10 in sQGP)
Effective coupling is large! alphas=O(1/2-1) (not <0.3 as in pQCD applications)
tHooft lambda=g2Nc=4piNc=O(20)>>1-1
Bielefeld-BNL lattice group: Karsch et al
An example of ``dyonic baryon”=finite T instanton
top.charge Q=1 config.,
dyons identified via fermionic zero modes
Berlin group - Ilgenfritz et al
Red, blue and green U(1) fields
3 dyons with corresp.Field strengths, SU(3),Each (1,-1,0) charges
Electric and magnetic scrreningMasses, Nakamura et al, 2004
My arrow shows the ``self-dual” E=M point
Me>MmElectrricdominated
Me<MmMagneticDominated
At T=0 magneticScreening massIs about 2 GeV(de Forcrand et al)(a glueball mass?)
There are more data (Karsch et al)Detailing how MeVanishes at Tc
ME/T=O(g)ES 78MM/T=O(g^2)Polyakov 79
New (compactified) phase diagram
describing an electric-vs-magnetic competition Dirac condition (old QED-type units e^2=alpha, deliberately no Nc yet)
Thus at the e=g line
Near deconfinement line g->0 in IR (Landau’s U(1) asymptotic freedom)
=> e-strong-coupling because g in weak! Why is this diagram better? =>
There are e-flux tubes in all blue region, not only in the confined phase! In fact, they are maximally enhanced at Tc
<- n=2 adjoint
Energy and entropy associated with 2
static quarksis very large near Tc
from lattice potntials Bielefeld-BNL
• R->infinity means there are 2 separate objects
• Entropy=20 implies exp(20) states
• At R=(.3-1.2)fm both are about linear in R <=
What object is that?
pQCD predictsa negative U
Energy and entropy associated with 2
static quarksis very large near Tc
from lattice potntials Bielefeld-BNL
• R->infinity means there are 2 separate objects
• Entropy=20 implies exp(20) states
• At R=(.3-1.2)fm both are about linear in R <=
What object is that?
pQCD predictsa negative U
e-flux tubes above Tc?(with J.F.Liao, archive 0706.4465 [hep-ph])
• Dual superconductivity at T<Tc as a confinement mechanism (‘tHooft, Mandelstam 1980’s) => monopole Bose condensation => electric flux tubes (dual to Abrikosov-Nielsson-Olesen vortices)
• Can uncondenced MQPs do the same at T>Tc ? MQPs are reflected from a region with E field =>
pressure => flux tubes compression in plasma• We solve quantum mechanics of motion in each partial wave
magnetic flux tubes at the Sun,(work without any superconductor!): so we need
to work out the exact conditions where classical electrons rotate
around it • B: about 1 kG, • Lifetime: few months
Classical and quantum mechanics of the flux tube
Red trajectory A => nu=0(velocity at large r directed to the center)Black one B => m=0 (which goes through the center because no m^2/r^2 barrier)
MD simulation for plasma with monopoles (Liao,ES hep-ph/0611131)
monopole admixture M50=50% etcagain diffusion decreases indefinitely, viscosity does not
€
D∝1/Γ^(0.6 − 0.8)It matters: 50-50 mixture makes the best liquid, as itcreates ``maximal confusion”
short transport summary log(inverse viscosity s/eta)- vs. log(inverse heavy q
diffusion const D*2piT) (avoids messy discussion of couplings)
• RHIC data: very small viscosity and D• vs theory - AdS/CFT and MD(soon to be
explained)
Weak coupling end =>(Perturbative results shown here)Both related to mean free path
MD results, with specifiedmonopole fraction
->Stronger coupled ->
Most perfect liquid
50-50% E/M is the most ideal liquid
4pi
From RHIC to LHC:(no answers, only 1bn$ questions)From RHIC to LHC:(no answers, only 1bn$ questions)
Will Will ``perfect liquid``perfect liquid” be still there?” be still there? Is Is jet quenchingjet quenching as strong, especially for as strong, especially for
c,b quark jets and much larger pt?c,b quark jets and much larger pt? Is matter response (conical flow at Is matter response (conical flow at
Mach angle) similar? Mach angle) similar? (This is most (This is most sensitive to viscosity…)sensitive to viscosity…)
Will Will ``perfect liquid``perfect liquid” be still there?” be still there? Is Is jet quenchingjet quenching as strong, especially for as strong, especially for
c,b quark jets and much larger pt?c,b quark jets and much larger pt? Is matter response (conical flow at Is matter response (conical flow at
Mach angle) similar? Mach angle) similar? (This is most (This is most sensitive to viscosity…)sensitive to viscosity…)
From SPS to LHCFrom SPS to LHC
• lifetime of QGP phase nearly doubles, but v2 grows only a little, to a universal value corresponding to EoS p=(1/3)epsilon• radial flow grows by about 20% => less mixed / hadronic phase (only 33% increase in collision numbers of hadronic phase in spite of larger multiplicity)
(From S.Bass)
ConclusionsConclusions
StronglyStrongly coupled coupled QGP is produced QGP is produced at RHIC T=(1-2)Tcat RHIC T=(1-2)Tc
This is the region This is the region where transition where transition from magnetic to from magnetic to electric electric dominance dominance happenhappen
at T<1.4 Tc at T<1.4 Tc still Lots of still Lots of magnetic magnetic objects => objects =>
E-flux tubesE-flux tubes even even without their without their condensatecondensate
StronglyStrongly coupled coupled QGP is produced QGP is produced at RHIC T=(1-2)Tcat RHIC T=(1-2)Tc
This is the region This is the region where transition where transition from magnetic to from magnetic to electric electric dominance dominance happenhappen
at T<1.4 Tc at T<1.4 Tc still Lots of still Lots of magnetic magnetic objects => objects =>
E-flux tubesE-flux tubes even even without their without their condensatecondensate
Classical MD is Classical MD is being done,being done, lowest viscosity lowest viscosity for 50-50% for 50-50% electric/magnetic electric/magnetic plasmaplasma
RHIC data on RHIC data on transport (eta,D), transport (eta,D), ADS/CFT and ADS/CFT and classical MD all classical MD all qualitatively agree !qualitatively agree !
Classical MD is Classical MD is being done,being done, lowest viscosity lowest viscosity for 50-50% for 50-50% electric/magnetic electric/magnetic plasmaplasma
RHIC data on RHIC data on transport (eta,D), transport (eta,D), ADS/CFT and ADS/CFT and classical MD all classical MD all qualitatively agree !qualitatively agree !
•AdS/CFT => natural AdS/CFT => natural applications of applications of string theorystring theoryN=4 SYM is N=4 SYM is nonconfining andnonconfining andStrongly coupled!Strongly coupled!
• small viscosity, small viscosity, and heavy quark and heavy quark diffusion, conical diffusion, conical flow seen in detail!flow seen in detail!