STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 1 Azimuthally-sensitive HBT (asHBT) in Au+Au collisions at s NN =200 GeV Mike Lisa, Ohio State University for the STAR Collaboration motivation why study RHIC? BlastWave parameterization of freeze-out 130 GeV sensitivity of asHBT to F.O. shape asHBT in Au+Au collisions at s NN =200 GeV RP/binning resolution correction radii vs centrality, k T, physics implications Summary Zero-th order information from ^ STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 2 time dN/dt Already a problem with traditional RHIC p-space observables well-understood within hydrodynamic framework hope of understanding early stage x-space observables not well-reproduced correct dynamical signatures with incorrect dynamic evolution? Too-large timescales modeled? emission/freezeout duration (R O /R S ) evolution duration (R L ) Heinz & Kolb, hep-ph/ Soff, Bass, Dumitru STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 3 time dN/dt Already a problem with traditional RHIC p-space observables well-understood within hydrodynamic framework hope of understanding early stage x-space observables not well-reproduced correct dynamical signatures with incorrect dynamic evolution? Too-large timescales modeled? emission/freezeout duration (R O /R S ) evolution duration (R L ) STAR PHENIX hydro only hydro+hadronic rescatt Realistically treating FO with hadronic afterburner makes it worse STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 4 so why study (more complicated) asHBT ? sensitive to interplay b/t anisotropic geometry & dynamics/evolution Kolb & Heinz, Phys. Lett. B (2002) STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 5 so why study (more complicated) asHBT ? sensitive to interplay b/t anisotropic geometry & dynamics/evolution broken symmetry for b 0 more detailed, important physics information another handle on dynamical timescales likely impt in HBT puzzle P. Kolb, nucl-th/ radial flow elliptic flow P. Kolb and U. Heinz, hep-ph/ STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 6 Freeze-out anisotropy as an evolution clock anisotropic pressure gradients preferential in-plane flow (v 2 ) evolution towards in-plane shape FO sensitive to evolution duration 0 dilute (hadronic) stage little effect on p-space at RHIC significant (bad) effect on HBT radii related to timescale qualitative change in FO FO from asHBT? hydro evolutionlater hadronic stage? P. Kolb and U. Heinz, hep-ph/ Teaney, Lauret, Shuryak, nucl-th/ STAR PHENIX hydro only hydro+hadronic rescatt Soff, Bass, Dumitru, PRL 2001 Teaney et al, nucl-th in-plane- extended out-of-plane-extended Teaney et al, nucl-th p =0 p =90 R S small R S big R.P. STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 7 Need a model of the freezeout- BlastWave BW: hydro-inspired parameterization of freezeout longitudinal direction infinite extent geometrically boost-invariant longitudinal flow Momentum space temperature T transverse rapidity boost ~ r Teaney, Lauret & Shuryak, nucl-th/ Schnedermann et al (93): 2-parameter (T, max ) hydro-inspired functional form to fit spectra. Useful to extract thermal, collective energy R azimuthally isotropic source model lets generalize for finite impact parameter STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 8 RYRY RXRX Need a model of the freezeout- BlastWave BW: hydro-inspired parameterization of freezeout longitudinal direction infinite extent geometrically boost-invariant longitudinal flow Momentum space temperature T transverse rapidity boost ~ r coordinate space transverse extents R X, R Y freezeout in proper time evolution duration 0 emission duration 00 00 F. Retire & MAL, in preparation STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 9 RYRY RXRX Need a model of the freezeout- BlastWave BW: hydro-inspired parameterization of freezeout longitudinal direction infinite extent geometrically boost-invariant longitudinal flow Momentum space temperature T transverse rapidity boost ~ r coordinate space transverse extents R X, R Y freezeout in proper time evolution duration 0 emission duration 7 parameters describing freezeout F. Retire & MAL, in preparation STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 10 BlastWave fits to published RHIC data p T spectra constrain (mostly) T, 0 central midcentral peripheral F. Retire & MAL, in preparation STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 11 R=9 fm R=12 fm R=18 fm BlastWave fits to published RHIC data R out R side R long R out R side R long F. Retire & MAL, in preparation p T spectra constrain (mostly) T, 0 (traditional) HBT radii constrain R , 0, depend also on T, 0 STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 12 p T spectra constrain (mostly) T, 0 (traditional) HBT radii constrain R , 0, depend also on T, 0 imperfect fit (esp. PHENIX R S ) BlastWave fits to published RHIC data central midcentral peripheral F. Retire & MAL, in preparation STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 13 BlastWave fits to published RHIC data p T spectra constrain (mostly) T, 0 (traditional) HBT radii constrain R , 0, depend also on T, 0 imperfect fit (esp. PHENIX R S ) v 2 (p T,m) constrain R Y /R X, a ~ 2 fm/c with Bowler CC (Not this talk) reasonable centrality evolution OOP extended source in non-central collisions CentralMidcentralPeripheral T (MeV) 108 3106 395 4 0 0.02 aa 0.06 0.01 R X (fm) 12.9 0.4 R Y (fm) 12.8 0.4 0 (fm/c)8.9 0.8 (fm/c)0.0 1.9 2 / ndf 80.5 / / / 68 F. Retire & MAL, in preparation centralmidcentralperipheral STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 14 Minbias v 2, 130 GeV STAR, PRL (2001) v 2 (p T,m) globally well-fit by hydro-inspired blast-wave a ~ 0.04, R Y /R X ~ 1.05 Minbias asHBT well-reproduced with same BlastWave from minbias v 2 (p T,m) R y = 11.4 fm R x = 10.8 fm 0 = 8.3 fm/c = 0 ( ~1.5 fm/c w/ Bowler CC)) asHBT: geometry dominates dynamics Source out-of-plane extended STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 15 So far v 2 (p T,m) indicates OOP-extended FO source for non-central collisions (confirmation from minbias asHBT) Would rather view the geometry more directly analyze asHBT in higher-statistics 200 GeV dataset (next) But HBT radii depend on everything (T, 0, ) can we extract FO shape from asHBT alone? p =0 p =90 R S small R S big R.P. STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 16 can we extract FO shape from asHBT alone? the BlastWave view outside out-side long non-central collisions all HBT radii exhibit 0 th & 2 nd - order oscillations (n>2 negligible) characterize each k T bin with 7 numbers: R 2 os,0 = 0 by symmetry ( * ) F. Retire & MAL, in preparation (*) Heinz, Hummel, MAL, Wiedemann, Phys. Rev. C (2002) STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 17 can we extract FO shape from asHBT alone? the BlastWave view non-central collisions all HBT radii exhibit 0 th & 2 nd - order oscillations (n>2 negligible) characterize each k T bin with 7 numbers: for fixed (R Y 2 +R X 2 ), increasing R Y /R X R 2 ,0 unchanged |R 2 ,2 | increases (sensitivity to FO shape) both R 2 ,0 and |R 2 ,2 | fall with p T same dependence/mechanism? (flow-induced x-p correlations) examine normalized oscillations R 2 ,2 /R 2,0 F. Retire & MAL, in preparation STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 18 FO shape from normalized oscillations the BlastWave view no-flow scenario: independent of p T U. Wiedemann PR C (1998) MAL, U. Heinz, U. Wiedemann PL B (2000) in BW: this remains ~true even with flow low p T ) F. Retire & MAL, in preparation /2 STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 19 FO shape from normalized oscillations the BlastWave view no-flow scenario: independent of p T U. Wiedemann PR C (1998) MAL, U. Heinz, U. Wiedemann PL B (2000) in BW: this remains ~true even with flow low p T ) independent of R Y 2 +R X 2 independent of (and 0 ) ~independent of T (and 0 ) estimate from R 2 ,2 / R 2 s,0 ( =o,s,os) fixed F. Retire & MAL, in preparation STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 20 asHBT at 200 GeV in STAR R( ) vs centrality 12 (!) -bins b/t (k T -integrated) 72 independent CFs clear oscillations observed in transverse radii of symmetry-allowed * type R o 2, R s 2, R l 2 ~ cos(2 ) R os 2 ~ sin(2 ) centrality dependence reasonable oscillation amps higher than 2 nd -order ~ 0 extract 0 th, 2 nd Fourier coefficients vs k T with 4 -bin analysis (*) Heinz, Hummel, MAL, Wiedemann, Phys. Rev. C (2002) STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 21 Correcting for finite -binning & RP -resolution Reaction-plane estimation (from event-wise p-space anisotropy) is imperfect n th -order oscillations reduced by cos(n( m- - R )) * m- - R * cos(n m ) from flow analysis e.g. Poskanzer & Voloshin Phys. Rev. C (1998) m- RR STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 22 Correcting for finite -binning & RP -resolution Reaction-plane estimation (from event-wise p-space anisotropy) is imperfect n th -order oscillations reduced by cos(n( m- - R )) * bins have finite width n th -order oscillations reduced by * cos(n m ) from flow analysis e.g. Poskanzer & Voloshin Phys. Rev. C (1998) STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 23 Correcting for finite -binning & RP -resolution Reaction-plane estimation (from event-wise p-space anisotropy) is imperfect n th -order oscillations reduced by cos(n( m- - R )) * bins have finite width n th -order oscillations reduced by * cos(n m ) from flow analysis e.g. Poskanzer & Voloshin Phys. Rev. C (1998) oscillations of what? not the HBT radii what is measured (and averaged/smeared) are pair number distributions N(q), D(q) [ C(q) = N(q) / D(q) ] STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 24 Correcting for finite -binning & RP -resolution Heinz, Hummel, MAL, Wiedemann, Phys. Rev. C (2002) Fourier coefficients for a given q-bin. correction factor for n th -order oscillations for the damping effects of 1)finite resolution in determining the m th - order event-plane 2)non-vanishing bin width ( ) in the emission angle with respect to the event- plane ( j ) Fourier coefficients for a given q bin rawcorrected ~ 30% effect on 2 nd -order radius oscillations ~0% change in mean values STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 25 asHBT at 200 GeV in STAR R( ) vs k T Clear oscillations observed at all k T extract 7 radius Fourier Coefficients (shown by lines) midcentral collisions (20-30%) STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 26 Grand Data Summary R 2 ,n vs k T, centrality One plot w/ relevant quantities from 2x5x3x4=120 3D CFs (*) left: R 2 ,0 traditional radii usual kT, centrality dependence right: R 2 ,2 / R 2,0 reasonable centrality dependence BW: sensitive to FO source shape (*) first STAR HBT paper: 10 CFs STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances 27 Estimate of initial vs F.O. source shape estimate INIT from Glauber from asHBT: FO = INIT FO < INIT dynamic expansion FO > 1 source always OOP-extended constraint on evolution time RHIC1 [Kolb & Heinz] STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances28 A simple estimate 0 from init and final radial flow P. Kolb, nucl-th/ BW X, F.O. ( X > Y ) hydro: flow velocity grows ~ t From R L (m T ): 0 ~ 9 fm/c consistent picture Longer or shorter evolution times X inconsistent toy estimate: 0 ~ 0 (BW)~ 9 fm/c But need a real model comparison asHBT valuable evolutionary clock constraint for models STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances29 Summary FO source shape a clock for system evolution OOP-extended earlier kinetic FO further test of long-lived hadronic stage: OOP IP-extended source inconsistent w/ data BlastWave parameterization of FO at RHIC -- s NN =130 GeV not perfect 130 GeV, but can provide some guidance/insight traditional HBT in fit suggest short emission, evolution timescales qualitatively supported by OOP from v2, minbias asHBT Fourier decomposition of HBT radius oscillations even with flow-induced x-p correlations, asHBT alone useful to estimate FO (R 2 u,2 / R 2 s,0 ) s NN =200 GeV 0 th, 2 nd -order oscillation amplitudes characterize -dependence of HBT radii of type allowed by symmetry centrality dependence reasonable oscillations at all k T OOP FO shape consistent story of fast evolution (~9 fm/c) STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances30 To do Us finalize analysis/systematic errors BW fits to final 200 GeV data (spectra, v2, asHBT) does it hang consistently together? Theorists can satisfactory FO be reached faster (e.g. more explosive EoS)? and can it be done consistently??? 2 fm/c4 fm/c6 fm/c8 fm/c P. Kolb, Ph.D. thesis (2002) P.T. soft spot in EOS & stall no P.T. in EOS explosive STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances31 To do Us finalize analysis/systematic errors BW fits to final 200 GeV data (spectra, v2, asHBT) does it hang consistently together? Theorists can satisfactory FO be reached faster (e.g. more explosive EoS)? and can it be done consistently? modification of hadronic stage needed?? Csrg, Akkelin, Hama, Lukcs, Sinyukov PRC (2003) Heinz & Kolb, hep-ph/ STAR HBT 16 Oct 20032nd Warsaw Meeting on Correlations and Resonances32 To do Us finalize analysis/systematic errors BW fits to final 200 GeV data (spectra, v2, asHBT) does it hang consistently together? Theorists can satisfactory FO be reached faster (e.g. more explosive EoS)? more constraints in that direction! modification of hadronic stage needed?? Csrg, Akkelin, Hama, Lukcs, Sinyukov PRC (2003) Heinz & Kolb, hep-ph/