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Bizzarri, R., Ciapetti, G., Dore, U., Gaspero, M., Laakso, I., Marzano, F., et al. (1974) Comparison of the Reaction at Rest in Hydrogen and Deuterium. A Test of S-State Annihilation Dominance. Nuclear Physics B, 69, 307-316.
https://doi.org/10.1016/0550-3213(74)90056-x

has been cited by the following article:

• TITLE: Evidence for a Second Neutral Pion

  AUTHORS: Walton A. Perkins

  KEYWORDS: Second Neutral Pion, Antiproton-Proton Annihilation

  JOURNAL NAME: Journal of High Energy Physics, Gravitation and Cosmology, Vol.11 No.4, September 23, 2025

  ABSTRACT: Evidence suggests the existence of a second neutral pion based on: (1) the anomalous branching ratios in the reactions p ¯ p→ππ and p ¯ d→ππN , and (2) the 1960s findings of Tsai-Chü et al. regarding antinucleon annihilation stars in emulsions. The anomaly in (1) disappears if the two neutral pions in the reactions p ¯ p→ π 0 π 0 and p ¯ d→ π 0 π 0 n are not identical. Tsai-Chü et al. observed a second neutral pion that “decays more rapidly into electron pairs with larger opening angles and more frequently into double pairs.” One antineutron annihilation event produced three neutral particles, each with a mass of 135 ± 14 MeV, decaying into four electrons with significantly wider opening angles than those of the internal conversion electrons observed in π 0 decays. The larger opening angles and higher frequency of double pair production could be caused by neutral pions with such a short lifetime that they decay into photon pairs before they can leave the annihilation nucleus (e.g., Ag) of the emulsion. We discuss several methods for searching for a second neutral pion.