The $\pi^0$ invariant mass peak positions and widths as a function of $p_{T}$ in 0-80% Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The $\pi^0$ invariant mass peak positions and widths as a function of $p_{T}$ in 0-80% Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The $\pi^0$ invariant mass peak positions and widths as a function of $p_{T}$ in 0-80% Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The $\pi^0$ invariant mass peak positions and widths as a function of $p_{T}$ in 0-80% Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The $\pi^0$ invariant mass peak positions and widths as a function of $p_{T}$ in 0-80% Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The $\pi^0$ invariant mass peak positions and widths as a function of $p_{T}$ in 0-80% Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

Photon conversion point radius distribution from real data and MC simulation in Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

Conversion probability correction factor for $\pi^0$ as a function of $p_{T}$

The overall detection efficiency of $\pi^0$ from embedding studt in 0-80% Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The overall detection efficiency of $\pi^0$ from embedding studt in 0-80% Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The overall detection efficiency of $\pi^0$ from embedding studt in 0-80% Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

Invariant yield of STAR $\pi^0$ as a function of $p_{T}$ at midrapidity for different collision centrality bins in Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

Invariant yield of STAR $\pi^0$ as a function of $p_{T}$ at midrapidity for different collision centrality bins in Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

Invariant yield of STAR $\pi^0$ as a function of $p_{T}$ at midrapidity for different collision centrality bins in Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The ratios of STAR $\pi^0$ spectra over $\pi^{\pm}$ from STAR and $\pi^0$ from PHENIX for different collision centrality bins in Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The nuclear modification factor $R_{CP}$ as a functon of $p_{T}$ of STAR $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

The nuclear modification factor $R_{AA}$ as a functon of $p_{T}$ of STAR $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV.

Cos(theta) distribution of jet 3 in the reduced 3-jet state.

Psi distribution of jet 3 in the reduced 3-jet state.

Normalised single-body mass distributions in the reduced 3-jet state.

Two-body energy sharing distributions, XA,of 2-jet combinations in reducing from 4-jet to 3-jet final states.

Two-body energy sharing distributions, XC,of 2-jet combinations in reducing from 5-jet to 4-jet final states.

Two-body energy sharing distribution, XE, of 2-jet combinations in reducing from 6-jet to 5-jet final states.

Two-body angular distribution, PSI(AB),of 2-jet combinations in reducing from 4-jet to 3-jet final states.

Two-body angular distribution, PSI(CD),of 2-jet combinations in reducing from 5-jet to 4-jet final states.

Two-body angular distribution, PSI(EF),of 2-jet combinations in reducing from 6-jet to 5-jet final states.

Normalised single-body mass distribution, F(A),of 2-jet combinations in reducing from 4-jet to 3-jet final states.

Normalised single-body mass distribution, F(B),of 2-jet combinations in reducing from 4-jet to 3-jet final states.

Normalised single-body mass distribution, F(C),of 2-jet combinations in reducing from 5-jet to 4-jet final states.

Normalised single-body mass distribution, F(D),of 2-jet combinations in reducing from 5-jet to 4-jet final states.

Normalised single-body mass distribution, F(E),of 2-jet combinations in reducing from 6-jet to 5-jet final states.

Normalised single-body mass distribution, F(F),of 2-jet combinations in reducing from 6-jet to 5-jet final states.

Inclusive 4-jet Dalitz X3 distribution.

Inclusive 4-jet Dalitz X4 distribution.

Inclusive 5-jet Dalitz X3 distribution.

Inclusive 5-jet Dalitz X4 distribution.

Inclusive 3-jet angular distribution in COS(THETA(3)).

Inclusive 3-jet angular distribution in CHI(3).

Inclusive 4-jet angular distribution in COS(THETA(3)).

Inclusive 4-jet angular distribution in CHI(3).

Inclusive 5-jet angular distribution in COS(THETA(3)).

Inclusive 5-jet angular distribution in CHI(3).

Single-jet mass fraction distributions in 3-jet events.

Single-body mass fraction distributions in 4-jet events.

Single-body mass fraction distributions in 5-jet events.

Two-body energy sharing variable XA in 4-jet events.

Two-body energy sharing variable XA and XC in 5-jet events.

Two-body angular distribution CHI(AB) in 4-jet events.

Two-body angular distributions CHI(AB) and CHI(CD) in 5-jet events.

Single-body mass fraction distributions FA and FB for two-body systems in 4-jet events.

Single-body mass fraction distribution FA for two-body systems in 5-jet events.

Single-body mass fraction distribution FB for two-body systems in 5-jet events.

Single-body mass fraction distribution FC for two-body systems in 5-jet events.

Single-body mass fraction distribution FD for two-body systems in 5-jet events.

Exclusive 5-jet mass distribution.

Exclusive 6-jet mass distribution.

Exclusive 3-jet mass distribution divided by the corresponding 2-jet distribution.

Exclusive 4-jet mass distribution divided by the corresponding 2-jet distribution.

Exclusive 5-jet mass distribution divided by the corresponding 2-jet distribution.

Exclusive 6-jet mass distribution divided by the corresponding 2-jet distribution.

Leading-jet angular distribution for exclusive 2-jet events.

Leading-jet angular distribution for exclusive 3-jet events.

Leading-jet angular distribution for exclusive 4-jet events.

Leading-jet angular distribution for exclusive 5-jet events.

Leading-jet angular distribution for exclusive 6-jet events.

Jet transverse momentum distrribution for exclusive 2-jet events.

Jet transverse momentum distrribution for exclusive 3-jet events.

Jet transverse momentum distrribution for exclusive 4-jet events.

Jet transverse momentum distrribution for exclusive 5-jet events.

Jet transverse momentum distrribution for exclusive 6-jet events.

Opposite and same baryon number invariant LAMBDA P mass distribuition for additional LAMBDA(PI) candidates in events with one identified XI-(XIBAR+). CT.= Data read from plot.

Invariant mass of all pair candidates, including background.. Data read from plot.

Probability to find addition LAMBDABAR in events which contain a LAMBDA with combined statistical and systematic errors.

Probability to find addition LAMBDABAR(LAMBDA) in events which contain a XI-(XIBAR+) with combined statistical and systematic errors.

Probability to find addition XIBAR+ in events which contain a XI- with combined statistical and systematic errors.

Probability to find addition LAMBDA(LAMBDABAR) in events which contain a LAMBDA(LAMBDABAR) with combined statistical and systematic errors.

Measured particle yield for LAMBDA production with combined statistical and systematic errors.

Measured particle yield for XI- production with combined statistical and systematic errors.

Measured particle yield for SIG1385+- production with combined statistical and systematic errors.

Measured particle yield for XI(1530)0 production with combined statistical and systematic errors.

Measured particle yield for OMEGA- production with combined statistical and systematic errors.

Measured particle yield for K0 production with combined statistical and systematic errors.

Measured particle yield for K*(892)0 production with combined statistical and systematic errors.

Measured particle yield for PHI production with combined statistical and systematic errors.