Research Article

Observation of an Antimatter Hypernucleus

Science  02 Apr 2010:
Vol. 328, Issue 5974, pp. 58-62
DOI: 10.1126/science.1183980

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Abstract

Nuclear collisions recreate conditions in the universe microseconds after the Big Bang. Only a very small fraction of the emitted fragments are light nuclei, but these states are of fundamental interest. We report the observation of antihypertritons—comprising an antiproton, an antineutron, and an antilambda hyperon—produced by colliding gold nuclei at high energy. Our analysis yields 70 ± 17 antihypertritons (H¯Λ¯3) and 157 ± 30 hypertritons (HΛ3). The measured yields of HΛ3 (H¯Λ¯3) and 3He (He¯3) are similar, suggesting an equilibrium in coordinate and momentum space populations of up, down, and strange quarks and antiquarks, unlike the pattern observed at lower collision energies. The production and properties of antinuclei, and of nuclei containing strange quarks, have implications spanning nuclear and particle physics, astrophysics, and cosmology.

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