We present the preliminary results of Experiment 864's search for antideuterons in 11.5 GeV/c per nucleon Au + Pt collisions at the AGS. The data represents 14 billion 10% central interactions selectively triggered for events with high mass candidates. Antideuteron invariant yields are found to be 3.5 ± 1.5( stat. ) +0.9 −0.5 ( sys. ) × 10 −8 GeV −2 c 2 in the rapidity range between y = 1.8 and 2.2 ( y cm = 1.6) for 〈 p t 〉= 0.35 GeV/c and 3.7±2.7( stat. ) +1.4 −1.5 ( sys. ) × 10 −8 GeV −2 c 2 between rapidities y = 1.4 and 1.8 at 〈 p t 〉= 0.26 GeV/c. These yields, along with E864 antiproton measurements, lead to a most probable value for the coalescence factor B 2 of 4.1 ± 2.9( stat. ) +2.3 −2.4 ( sys. ) × 10 −3 GeV −2 c 3 after correcting antiproton yields for antihyperon feeddown contributions. Implications for the coalescence model and antimatter annihilation from an antideuteron measurement are also discussed.
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PRELIMINARY DATA.
We present results from Experiment 864 for antiproton production and antideuteron limits in Au + Pb collisions at 11.5 GeV/c per nucleon. We have measured invariant multiplicities for antiprotons for rapidities 1.4<y<2.4 at low transverse momentum as a function of collision geometry. When compared with the results from Experiment 878 our measurements suggest a significant contribution to the measured antiproton yield from the decay of strange antibaryons. We have also searched for antideuterons and see no statistically significant signal. Thus, we set upper limits on the production at approximately 3 x 10^{-7} per 10% highest multiplicity Au + Pb interaction.
CENTRALITY = 10 PCT.
CENTRALITY = 100 TO 70 PCT.
CENTRALITY = 70 TO 30 PCT.