christoph blume university of heidelberg

International School on:

Quark-Gluon Plasma and Heavy Ion Collisions:Past, Present, Future

Villa Gualino, Turino, Italy

Soft Probes III

Christoph Blume

University of Heidelberg

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Observables

FluctuationsFluctuations

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

The Early Universe ...

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuations in Cosmology

WMAP

Only 1 Event

Fluctuations on the level of < 10-4

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuations in Heavy Ion Physics

Probe the medium response (susceptibilities)

Study hadronization properties

Might be sensitive to QGP phaseHadron gas reacts differently than QGP

Different number of degrees of freedom

Nature of the phase transitionOrder of the transition (cross over ⇔ 1st order)

Existence of critical point ⇒ sudden increase of fluctuations

Quark number susceptibilityfrom lattice QCD (Bielefeld group)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuations Measures (I): Basics

Basic event-by-event observables: Multiplicities

Average transverse momenta 〈 pT 〉

Particle ratios (e.g. K/π)

Conserved quantities (charge Q, strangeness S, baryon number B )

Fluctuations usually characterized by second moments variance⇒Higher moments (kurtosis) recently investigated

Two averages: inside a given event and over all eventsLarge and uniform detector acceptance is helpful

Need to separate simple statistical fluctuations from dynamical onesLarge effect in heavy ion physics: volume (impact parameter) fluctuations

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: 〈 pT 〉 Fluctuations

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuation Measures (II): Means and Variances

Observable x (e.g. pT ) for a single particle i ⇒ mean in a given event of multiplicity Nj :

Mean over all events of a quantity Xj, which characterizes each event :

The weighting factor is wj = 1 for quantities such as the event-wise multiplicity (i.e. ).In the case (e.g. average pT) we have

The variance of Xj is :

see also: NPA727, 97 (2003)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuation Measures (III): Means and Variances

Mean over all particles i and events j of the single particle observable xi :

Corresponding variance :

Mean over all events j of the event-wisemean Mx (e.g. average pT):

Variance of Mx :

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: Multiplicity Fluctuations

NA49: PRC75, 064904 (2007)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuation Measures (IV): Φx

Properties:

Φx = 0 for independent particle emission(no interparticle correlations)

Φx(A+A) = Φx(p+p) if A+A was a simple superposition of p+pM. Gazdzicki and S. Mrowczynski, ZPC54, 127 (1992)

Not a dimensionless quantity

〈 ... 〉 : averaging over events

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: 〈 pT 〉 Fluctuations

central Pb+Pb @ √sNN = 17.3 GeV

NA49: PLB459, 679 (1999)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: 〈 pT 〉 Fluctuations

NA49: PRC70, 034902 (2004)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuation Measures (V): σdyn

Definition :S. Voloshin, V. Koch, H.G. Ritter, PRC60, 024901 (1999)

If only statistical fluctuations are present ⇒

Normalized dynamical fluctuation:NA45: NPA727, 97 (2003)

Normalization removes energy dependencies, e.g. due to increase of 〈 pT 〉

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: 〈 pT 〉 Fluctuations

NA45: NPA727, 97 (2003)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuation Measures (VI): Particle Ratios A/B

Mixed events as referencePRC79, 044910 (2009)

Poisson statistics as reference:C. Pruneau, S. Gavin, and S. Voloshin, PRC66, 044904 (2002)

Negative values imply dominating correlations between A and B

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: K/π Fluctuations

STAR: arXiv:0901.1795

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: K/π Fluctuations

STAR: arXiv:0901.1795

Comparison of energy and system size dependence of νdyn

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: K/p and p/π Fluctuations

S/B fluctuation as QGP signalV. Koch, A. Majumder, and J. Randrup, PRL95, 182301 (2005)

T < Tc: S and B can be unrelated (Kaons: S = -1, B = 0)

T > Tc: S and B are correlated(s-Quark: S = -1, B = 1/3)

Dominated by resonance decays

K/p

p/π

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuation Measures (VII): pT Correlations

Covariance of transverse momentaof different particlesSTAR: PRC72, 044902 (2005)

Independent of detectionefficiencies

Influence of other effects(e.g. Coulomb interactionor Bose-Einstein corr.) can more easily be studied

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: pT Correlations

STAR: PRC72, 044902 (2005)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: Net-Charge Fluctuations

Hadron Gas:

Charge unit = 1

Quark Gluon Plasma:

Charge unit = 1/3

⇒ Charge fluctuations should be reduced in QGP relative to hadron gas S. Jeon and V. Koch, PRL85, 2076 (2000) M. Asakawa, U. Heinz and B. Müller, PRL85, 2072 (2000)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Example: Net-Charge Fluctuations

Charge Conservation Limit

QGP

HIJING

Signal obscured by resonance decaysStrongly acceptance dependent

STAR: PRC68 044905 (2003)

Au+Au, √sNN = 130 GeV

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Balance Function

⇒ Sensitive to hadronization time in an expanding system

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Balance Function

S. Bass, P. Danielewicz, and S. Pratt, PRL85, 2689 (2000)

With, e.g., being the density of pairs inside a given relative pseudo-rapidity range

Analysis done as a function of

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Balance Function

Possible evidence for delayed hadronization

STAR: PRC82, 024905 (2010)

Shuffled: randomly shufflecharges inside a given event

⇒ largest possible BF-width

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Fluctuations

Fluctuations observed on the level of 1 - 10%

Many “trivial” effectsVolume fluctuations

Resonance decays

Acceptance effects

Short range correlations (Bose-Einstein)

Conservation laws

(Mini-)jets

Elliptic flow

...

But clear evidence for dynamical fluctuations with non-trivial energy or system size dependencies

QCD Critical PointQCD Critical Point

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

The QCD Phase Diagram

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Analogy: Phase Diagram of Water

Cross over

Critical point

1st order phase boundary

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

The QCD Phase Diagram

K. Rajagopal, CPOD Conference 09

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Critical Point Predictions

Lattice QCD calculationat finite μB

Z. Fodor and S. KatzJHEP 0404, 050 (2004)

M. Stephanov,CPOD conference 09

But current predictions scatter quite a lot

The CP might even not exist at all ...P. de Forcrand and O. Philipsen, JHEP01, 077 (2007)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Critical Point Predictions

Larger critical area possibleY. Hatta and T. Ikeda, PRD67, 014028 (2003)

Focusing effect

Proximity of critical point mightinfluence isentropic trajectories

M. Askawa et al., PRL101, 122302 (2008)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

First Attempts

Multiplicity fluctuations as a function of B NA49 data:Phys. Rev. C79,044904 (2009)

B from stat. model fit:F. Becattini et al.,Phys. Rev. C73,044905 (2006)

Amplitude ofFluctuations:M. Stephanov et al.Phys. Rev. D60, 114028 (1999)

Width of crit. region:Y. Hatta and T. Ikeda, Phys. Rev. D67, 014028 (2003)

Position ofcrit. point:Z. Fodor and S. KatzJHEP 0404, 050 (2004)

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Strategy: Energy Scan

STAR at RHIC

NA61 at the SPS

CBM at FAIR

Observables: Fluctuations

Flow

Spectra

Overview: arXiv:1007.2613

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

The QCD Phase Diagram

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Critical Endpoint from Lattice QCD

Christoph Blume Villa Gualino, Turino, 7-12 March 2011

Order of the Phase Transition