K$^+$p (K$^+$p $\oplus$ K$^-\overline{\mathrm p}$) correlation function in HM pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV (1.8<$m_T$<2.0 GeV/$c^{2}$).

Extracted radii from the fit as a function of \mt for the HM analysis of the K$^+$p (K$^+$p $\oplus$ K$^-\overline{\mathrm p}$) correlation function.

Extracted radii from the fit as a function of \mt for the HM analysis of the same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function. For the extraction two types of backgrounds were assumed either a pol1 or pol2. The assumption of pol1 exhibits a greater or equivalent compatibility with the data compared to the pol2 assumption.

Extracted radii from the fit as a function of \mt for the MB analysis of the same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function. For the extraction two types of backgrounds were assumed either a pol1 or pol2. The assumption of pol2 exhibits a greater or equivalent compatibility with the data compared to the pol1 assumption.

Extracted radii from the fit as a function of \mt for the MB analysis of the same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function. For the extraction two types of backgrounds were assumed either a pol1 or pol2. The assumption of pol2 exhibits a greater or equivalent compatibility with the data compared to the pol1 assumption.

Extracted radii from the fit as a function of \mt for the MB analysis of the same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function. For the extraction two types of backgrounds were assumed either a pol1 or pol2. The assumption of pol2 exhibits a greater or equivalent compatibility with the data compared to the pol1 assumption.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $1\leq N_{\mathrm{ch}} \leq 18$ and $0.15\leq k_{\mathrm{T}} \leq 0.30$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}>$ 0.7.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $1\leq N_{\mathrm{ch}} \leq 18$ and $0.30\leq k_{\mathrm{T}} \leq 0.50$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $1\leq N_{\mathrm{ch}} \leq 18$ and $0.50\leq k_{\mathrm{T}} \leq 0.70$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $1\leq N_{\mathrm{ch}} \leq 18$ and $0.70\leq k_{\mathrm{T}} \leq 0.90$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $1\leq N_{\mathrm{ch}} \leq 18$ and $0.90\leq k_{\mathrm{T}} \leq 1.50$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $19\leq N_{\mathrm{ch}} \leq 30$ and $0.15\leq k_{\mathrm{T}} \leq 0.30$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $19\leq N_{\mathrm{ch}} \leq 30$ and $0.30\leq k_{\mathrm{T}} \leq 0.50$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $19\leq N_{\mathrm{ch}} \leq 30$ and $0.50\leq k_{\mathrm{T}} \leq 0.70$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $19\leq N_{\mathrm{ch}} \leq 30$ and $0.70\leq k_{\mathrm{T}} \leq 0.90$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $19\leq N_{\mathrm{ch}} \leq 30$ and $0.90\leq k_{\mathrm{T}} \leq 1.50$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $N_{\mathrm{ch}}\geq~31$ and $0.15\leq k_{\mathrm{T}} \leq 0.30$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $N_{\mathrm{ch}}\geq~31$ and $0.30\leq k_{\mathrm{T}} \leq 0.50$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $N_{\mathrm{ch}}\geq~31$ and $0.50\leq k_{\mathrm{T}} \leq 0.70$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $N_{\mathrm{ch}}\geq~31$ and $0.70\leq k_{\mathrm{T}} \leq 0.90$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for $N_{\mathrm{ch}}\geq~31$ and $0.90\leq k_{\mathrm{T}} \leq 1.50$ GeV/$c$ in MB pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV with selection on the event sphericiy $S_{\mathrm{T}}$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for HM pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV and $0.15\leq k_{\mathrm{T}} \leq 0.30$ GeV/$c$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for HM pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV and $0.30\leq k_{\mathrm{T}} \leq 0.50$ GeV/$c$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for HM pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV and $0.90\leq k_{\mathrm{T}} \leq 1.50$ GeV/$c$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for HM pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV and $0.70\leq k_{\mathrm{T}} \leq 0.90$ GeV/$c$.

The same sign $\uppi$--$\uppi$ $\oplus$ $\overline{\uppi}$--$\overline{\uppi}$ correlation function for HM pp collisions at $\sqrt{s_{\mathrm {NN}}}=13 $ TeV and $0.90\leq k_{\mathrm{T}} \leq 1.50$ GeV/$c$.

Differential cross section of elastic $\pi^+$p-scattering at P= 810.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 814.54 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 818.13 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 822.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 825.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 829.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 833.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 837.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 841.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 845.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 848.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 852.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 856.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 859.96 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 863.71 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 867.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 871.42 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 874.88 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 878.79 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 882.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 886.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 890.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 894.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 897.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 901.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 905.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 909.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 912.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 916.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 919.04 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 923.38 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 927.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 931.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 936.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 940.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 948.08 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 952.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 957.42 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 963.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 968.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 972.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 978.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 983.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 987.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 993.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P= 998.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1002.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1008.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1013.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1017.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1023.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1028.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1032.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1038.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1043.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1047.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1053.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1058.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1062.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1068.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1073.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1077.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1083.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1088.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1092.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1097.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1102.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1107.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1111.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1116.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1121.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1125.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1130.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1135.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1139.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1144.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1149.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1154.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1159.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1164.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1170.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1175.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1180.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1186.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1191.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1195.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1201.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1206.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1210.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1216.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1221.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1225.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1231.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1236.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1240.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1247.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1252.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1257.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1262.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1267.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1272.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1276.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1281.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1286.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1291.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1296.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1301.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1306.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1311.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1316.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1320.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1325.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^+$p-scattering at P=1330.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 800.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 803.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 807.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 810.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 814.54 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 818.13 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 822.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 825.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 829.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 833.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 837.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 841.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 845.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 848.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 852.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 856.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 859.96 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 863.71 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 867.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 871.42 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 874.88 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 878.79 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 882.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 886.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 890.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 894.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 897.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 901.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 905.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 909.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 912.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 916.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 919.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 923.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 927.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 931.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 934.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 938.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 940.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 943.21 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 946.79 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 950.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 953.44 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 956.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 960.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 964.17 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 968.08 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 971.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 975.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 979.29 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 983.19 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 986.85 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 990.63 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 993.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P= 998.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1001.54 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1005.71 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1008.25 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1010.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1014.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1017.79 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1022.13 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1026.21 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1029.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1032.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1035.96 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1039.54 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1043.77 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1047.48 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1052.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1056.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1060.42 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1063.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1066.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1070.42 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1074.35 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1078.23 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1082.29 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1086.21 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1090.04 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1093.96 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1098.04 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1102.29 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1104.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1108.21 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1112.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1116.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1120.83 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1124.08 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1127.77 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1132.23 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1134.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1137.44 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1140.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1143.60 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1147.81 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1152.02 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1157.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1162.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1167.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1172.29 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1177.38 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1182.46 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1187.33 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1192.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1197.67 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1202.58 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1207.75 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1212.92 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1217.02 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1222.31 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1227.60 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1232.38 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1237.63 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1242.88 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1247.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1252.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1257.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1262.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1267.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1272.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1276.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1281.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1286.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1291.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1296.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1301.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1306.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1311.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1316.00 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1320.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1325.50 MeV/c. Errors shown are statistical only.

Differential cross section of elastic $\pi^-$p-scattering at P=1330.50 MeV/c. Errors shown are statistical only.

Asymmetry results on $\vec e-^2$H parity-violating scattering from the PVDIS experiment at JLab, for RES IV settings.

Asymmetry results on $\vec e-^2$H parity-violating scattering from the PVDIS experiment at JLab, for RES III settings.

Reference multiplicity distributions obtained from Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV data (black markers), Glauber model (red histogram), and unfolding approach to separate single and pileup contributions. Vertical lines represent statistical uncertainties. Single, pileup, and single+pileup collisions are shown in solid blue markers, dashed green, and dashed pink lines, respectively. The 0–5% central events and 5–60% mid-central to peripheral events are indicated by black arrows. The ratio of the single+pileup to the measured multiplicity distribution is shown in the lower panel.

Reference multiplicity distributions obtained from Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV data (black markers), Glauber model (red histogram), and unfolding approach to separate single and pileup contributions. Vertical lines represent statistical uncertainties. Single, pileup, and single+pileup collisions are shown in solid blue markers, dashed green, and dashed pink lines, respectively. The 0–5% central events and 5–60% mid-central to peripheral events are indicated by black arrows. The ratio of the single+pileup to the measured multiplicity distribution is shown in the lower panel.

Proton cumulants as a function of reference multiplicity (black circles) from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Centrality-binned results with and without centrality bin width corrections are represented by red circles and blue squares, respectively. Vertical dashed lines indicate the centrality classes, from right to left: 0–5%, 5–10%, 10–20%. Data points in this figure are only corrected for detector efficiency but not for the pileup effect, which will be discussed in a later section.

Proton cumulants as a function of reference multiplicity (black circles) from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Centrality-binned results with and without centrality bin width corrections are represented by red circles and blue squares, respectively. Vertical dashed lines indicate the centrality classes, from right to left: 0–5%, 5–10%, 10–20%. Data points in this figure are only corrected for detector efficiency but not for the pileup effect, which will be discussed in a later section.

Proton cumulants as a function of reference multiplicity (black circles) from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Centrality-binned results with and without centrality bin width corrections are represented by red circles and blue squares, respectively. Vertical dashed lines indicate the centrality classes, from right to left: 0–5%, 5–10%, 10–20%. Data points in this figure are only corrected for detector efficiency but not for the pileup effect, which will be discussed in a later section.

Proton cumulants as a function of reference multiplicity from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Pileup corrected and uncorrected cumulants as a function of reference multiplicity are represented by black circles and blue open squares, respectively. Red circles and blue-filled squares represent the results of centrality binned data.

Proton cumulants as a function of reference multiplicity from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Pileup corrected and uncorrected cumulants as a function of reference multiplicity are represented by black circles and blue open squares, respectively. Red circles and blue-filled squares represent the results of centrality binned data.

Ratios of proton cumulants as a function of reference multiplicity from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Pileup corrected and uncorrected cumulants are represented by black circles and blue open squares, respectively. Red circles and blue-filled squares represent the results of centrality binned data.

Ratios of proton cumulants as a function of reference multiplicity from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Pileup corrected and uncorrected cumulants are represented by black circles and blue open squares, respectively. Red circles and blue-filled squares represent the results of centrality binned data.

UrQMD results of the proton cumulant ratios up to sixth order in Au+Au collisions at $\sqrt{s_{\rm NN}}$= 3 GeV. The black circles are without VF correction while blue squares and red triangles are results with VFC which used $N_{\rm part}$ distributions from UrQMD and Glauber models, respectively. The blue crosses are calculations using UrQMD events with b $\leq$ 3 fm. The above results are applied CBWC except for the one (blue crosses) using b $\leq$3 fm events.

UrQMD results of the proton cumulant ratios up to sixth order in Au+Au collisions at $\sqrt{s_{\rm NN}}$= 3 GeV. The black circles are without VF correction while blue squares and red triangles are results with VFC which used $N_{\rm part}$ distributions from UrQMD and Glauber models, respectively. The blue crosses are calculations using UrQMD events with b $\leq$ 3 fm. The above results are applied CBWC except for the one (blue crosses) using b $\leq$3 fm events.

Proton cumulants up to sixth order in $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Data without volume fluctuation correction is shown as grey open squares while data with volume fluctuation correction using $N_{\rm part}$ distributions from Glauber and UrQMD models are shown as black circles and black open triangles, respectively. The corresponding centrality binned cumulants are shown in blue squares, red circles, and orange triangles, respectively. Similarly to Fig. 6, the vertical dashed lines indicate the centrality classes.

Proton cumulants up to sixth order in $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Data without volume fluctuation correction is shown as grey open squares while data with volume fluctuation correction using $N_{\rm part}$ distributions from Glauber and UrQMD models are shown as black circles and black open triangles, respectively. The corresponding centrality binned cumulants are shown in blue squares, red circles, and orange triangles, respectively. Similarly to Fig. 6, the vertical dashed lines indicate the centrality classes.

Proton cumulant ratios up to sixth order in $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Data without volume fluctuation correction are shown as grey open squares while data with volume fluctuation correction using $N_{\rm part}$ distributions from Glauber and UrQMD models are shown as black circles and black open triangles, respectively. The corresponding centrality binned cumulants are shown in blue squares, red circles, and orange triangles, respectively. Similarly to Fig. 6, the vertical dashed lines indicate the centrality classes.

Proton cumulant ratios up to sixth order in $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions. Data without volume fluctuation correction are shown as grey open squares while data with volume fluctuation correction using $N_{\rm part}$ distributions from Glauber and UrQMD models are shown as black circles and black open triangles, respectively. The corresponding centrality binned cumulants are shown in blue squares, red circles, and orange triangles, respectively. Similarly to Fig. 6, the vertical dashed lines indicate the centrality classes.

UrQMD results of proton cumulant ratios up to sixth order in Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV. The vertical dashed lines indicate the centrality classes.

Experimental results on centrality dependence of cumulants (left panels) and cumulant ratios (right panels) up to sixth order of the proton multiplicity distributions in Au+Au collisions at $N_{\rm part}$ = 3 GeV. The open squares are data without VF correction while red circles and blue triangles are results with VF correction with $N_{\rm part}$ distributions from Glauber and UrQMD models, respectively.

Experimental results on centrality dependence of cumulants (left panels) and cumulant ratios (right panels) up to sixth order of the proton multiplicity distributions in Au+Au collisions at $N_{\rm part}$ = 3 GeV. The open squares are data without VF correction while red circles and blue triangles are results with VF correction with $N_{\rm part}$ distributions from Glauber and UrQMD models, respectively.

Same as Fig. 14 but for correlation function (left panels) and their normalized ratios (right panels).

Same as Fig. 14 but for correlation function (left panels) and their normalized ratios (right panels).

Cumulants and cumulant ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV. The transverse momentum window is $p_{\rm T}$ from $0.4<p_{\rm T}<2.0$ GeV/$c$ and the rapidity window is $−0.5<y<0$. Statistical and systematic uncertainties are represented by black and gray bars, respectively. UrQMD predictions are depicted by gold bands.

Cumulants and cumulant ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV. The transverse momentum window is $p_{\rm T}$ from $0.4<p_{\rm T}<2.0$ GeV/$c$ and the rapidity window is $−0.5<y<0$. Statistical and systematic uncertainties are represented by black and gray bars, respectively. UrQMD predictions are depicted by gold bands.

Same as Fig. 16 but for correlation functions and correlation function ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV.

Same as Fig. 16 but for correlation functions and correlation function ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV.

The transverse-momentum and rapidity dependence of cumulant ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV. In the left column, the $p_{\rm T}$ analysis window is $0.4<p_{\rm T}<2.0$ GeV/$c$ while the rapidity window is varied in the range $y_{\rm min}<y<0$. In the right column, the rapidit$y$ analysis window is $−0.5<y<0$ while the $p_{\rm T}$ is varied in the range $0.4<p_{\rm T}<p_{\rm T}^{\rm max}$ GeV/$c$. The most central (0–5%) and peripheral (50–60%) events are depicted by black squares and blue triangles, respectively. Statistical and systematic uncertainties are represented by black and gray bars, respectively. UrQMD simulations for the top 0–5% and 50–60% are shown by gold and blue bands, respectively.

The transverse-momentum and rapidity dependence of cumulant ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV. In the left column, the $p_{\rm T}$ analysis window is $0.4<p_{\rm T}<2.0$ GeV/$c$ while the rapidity window is varied in the range $y_{\rm min}<y<0$. In the right column, the rapidit$y$ analysis window is $−0.5<y<0$ while the $p_{\rm T}$ is varied in the range $0.4<p_{\rm T}<p_{\rm T}^{\rm max}$ GeV/$c$. The most central (0–5%) and peripheral (50–60%) events are depicted by black squares and blue triangles, respectively. Statistical and systematic uncertainties are represented by black and gray bars, respectively. UrQMD simulations for the top 0–5% and 50–60% are shown by gold and blue bands, respectively.

The transverse-momentum and rapidity dependence of cumulant ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV. In the left column, the $p_{\rm T}$ analysis window is $0.4<p_{\rm T}<2.0$ GeV/$c$ while the rapidity window is varied in the range $y_{\rm min}<y<0$. In the right column, the rapidit$y$ analysis window is $−0.5<y<0$ while the $p_{\rm T}$ is varied in the range $0.4<p_{\rm T}<p_{\rm T}^{\rm max}$ GeV/$c$. The most central (0–5%) and peripheral (50–60%) events are depicted by black squares and blue triangles, respectively. Statistical and systematic uncertainties are represented by black and gray bars, respectively. UrQMD simulations for the top 0–5% and 50–60% are shown by gold and blue bands, respectively.

The transverse-momentum and rapidity dependence of cumulant ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV. In the left column, the $p_{\rm T}$ analysis window is $0.4<p_{\rm T}<2.0$ GeV/$c$ while the rapidity window is varied in the range $y_{\rm min}<y<0$. In the right column, the rapidit$y$ analysis window is $−0.5<y<0$ while the $p_{\rm T}$ is varied in the range $0.4<p_{\rm T}<p_{\rm T}^{\rm max}$ GeV/$c$. The most central (0–5%) and peripheral (50–60%) events are depicted by black squares and blue triangles, respectively. Statistical and systematic uncertainties are represented by black and gray bars, respectively. UrQMD simulations for the top 0–5% and 50–60% are shown by gold and blue bands, respectively.

As in Fig. 18 but for transverse-momentum and rapidity dependence of correlation function ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV.

As in Fig. 18 but for transverse-momentum and rapidity dependence of correlation function ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV.

As in Fig. 18 but for transverse-momentum and rapidity dependence of correlation function ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV.

As in Fig. 18 but for transverse-momentum and rapidity dependence of correlation function ratios of proton multiplicity distributions for Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 3 GeV.

Collision energy dependence of the cumulant ratios: $C_2/C_1=\sigma/M$, $C_3/C_2=S\sigma$, and $C_4/C_2=\kappa\sigma^2$, for protons (open squares) and net protons (red circles) from top 0–5% (top panels) and 50–60% (bottom panels) Au+Au collisions at RHIC. The points for protons are shifted horizontally for clarity. The new result for protons from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions is shown as a filled square. UrQMD results with $|y|<0.5$ for protons are shown as gold bands while those for net protons are shown as green dashed lines or green bands. At 3GeV, the model results for protons (−0.5) are shown as blue crosses. UrQMD results of proton and net-proton $C_4/C_2$, see right panels, are almost totally overlapped. The open cross is the result of the model with a fixed impact parameter $b < 3$ fm. The hydrodynamic calculations, for 5% central Au+Au collisions, for protons from $|y|<0.5$ are shown as dashed red linea and the result of the 3 GeV protons from $−0.5<y<0$ is shown as an open red star.

Collision energy dependence of the cumulant ratios: $C_2/C_1=\sigma/M$, $C_3/C_2=S\sigma$, and $C_4/C_2=\kappa\sigma^2$, for protons (open squares) and net protons (red circles) from top 0–5% (top panels) and 50–60% (bottom panels) Au+Au collisions at RHIC. The points for protons are shifted horizontally for clarity. The new result for protons from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions is shown as a filled square. UrQMD results with $|y|<0.5$ for protons are shown as gold bands while those for net protons are shown as green dashed lines or green bands. At 3GeV, the model results for protons (−0.5) are shown as blue crosses. UrQMD results of proton and net-proton $C_4/C_2$, see right panels, are almost totally overlapped. The open cross is the result of the model with a fixed impact parameter $b < 3$ fm. The hydrodynamic calculations, for 5% central Au+Au collisions, for protons from $|y|<0.5$ are shown as dashed red linea and the result of the 3 GeV protons from $−0.5<y<0$ is shown as an open red star.

Collision energy dependence of the cumulant ratios: $C_2/C_1=\sigma/M$, $C_3/C_2=S\sigma$, and $C_4/C_2=\kappa\sigma^2$, for protons (open squares) and net protons (red circles) from top 0–5% (top panels) and 50–60% (bottom panels) Au+Au collisions at RHIC. The points for protons are shifted horizontally for clarity. The new result for protons from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions is shown as a filled square. UrQMD results with $|y|<0.5$ for protons are shown as gold bands while those for net protons are shown as green dashed lines or green bands. At 3GeV, the model results for protons (−0.5) are shown as blue crosses. UrQMD results of proton and net-proton $C_4/C_2$, see right panels, are almost totally overlapped. The open cross is the result of the model with a fixed impact parameter $b < 3$ fm. The hydrodynamic calculations, for 5% central Au+Au collisions, for protons from $|y|<0.5$ are shown as dashed red linea and the result of the 3 GeV protons from $−0.5<y<0$ is shown as an open red star.

Collision energy dependence of the cumulant ratios: $C_2/C_1=\sigma/M$, $C_3/C_2=S\sigma$, and $C_4/C_2=\kappa\sigma^2$, for protons (open squares) and net protons (red circles) from top 0–5% (top panels) and 50–60% (bottom panels) Au+Au collisions at RHIC. The points for protons are shifted horizontally for clarity. The new result for protons from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions is shown as a filled square. UrQMD results with $|y|<0.5$ for protons are shown as gold bands while those for net protons are shown as green dashed lines or green bands. At 3GeV, the model results for protons (−0.5) are shown as blue crosses. UrQMD results of proton and net-proton $C_4/C_2$, see right panels, are almost totally overlapped. The open cross is the result of the model with a fixed impact parameter $b < 3$ fm. The hydrodynamic calculations, for 5% central Au+Au collisions, for protons from $|y|<0.5$ are shown as dashed red linea and the result of the 3 GeV protons from $−0.5<y<0$ is shown as an open red star.

Collision energy dependence of the cumulant ratios: $C_2/C_1=\sigma/M$, $C_3/C_2=S\sigma$, and $C_4/C_2=\kappa\sigma^2$, for protons (open squares) and net protons (red circles) from top 0–5% (top panels) and 50–60% (bottom panels) Au+Au collisions at RHIC. The points for protons are shifted horizontally for clarity. The new result for protons from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions is shown as a filled square. UrQMD results with $|y|<0.5$ for protons are shown as gold bands while those for net protons are shown as green dashed lines or green bands. At 3GeV, the model results for protons (−0.5) are shown as blue crosses. UrQMD results of proton and net-proton $C_4/C_2$, see right panels, are almost totally overlapped. The open cross is the result of the model with a fixed impact parameter $b < 3$ fm. The hydrodynamic calculations, for 5% central Au+Au collisions, for protons from $|y|<0.5$ are shown as dashed red linea and the result of the 3 GeV protons from $−0.5<y<0$ is shown as an open red star.

Collision energy dependence of the cumulant ratios: $C_2/C_1=\sigma/M$, $C_3/C_2=S\sigma$, and $C_4/C_2=\kappa\sigma^2$, for protons (open squares) and net protons (red circles) from top 0–5% (top panels) and 50–60% (bottom panels) Au+Au collisions at RHIC. The points for protons are shifted horizontally for clarity. The new result for protons from $\sqrt{s_{\rm NN}}$ = 3 GeV Au+Au collisions is shown as a filled square. UrQMD results with $|y|<0.5$ for protons are shown as gold bands while those for net protons are shown as green dashed lines or green bands. At 3GeV, the model results for protons (−0.5) are shown as blue crosses. UrQMD results of proton and net-proton $C_4/C_2$, see right panels, are almost totally overlapped. The open cross is the result of the model with a fixed impact parameter $b < 3$ fm. The hydrodynamic calculations, for 5% central Au+Au collisions, for protons from $|y|<0.5$ are shown as dashed red linea and the result of the 3 GeV protons from $−0.5<y<0$ is shown as an open red star.

Covariance matrix (statistical and systematic uncertainties combined) with the muon $p_{T}>35$ GeV. The units are in $10^{-4}$.