Data relative to antineutron and antiproton annihilation on large nuclei in the range 75-200MeV/c present two unexpected features: a) antineutron and antiproton cross sections have a similar size, b) the rise of the antineutron cross section at decreasing energy is much steeper than predictable for an inelastic process of purely strong nature at that energy. The observed behavior of (Formula presented.)-nucleus annihilations is similar to what would be expected for (Formula presented.)-nucleus annihilations, where the Coulomb attraction focusses (Formula presented.) trajectories towards the nucleus, enhancing the inelastic cross section by a factor 1/p2with respect to (Formula presented.) on the same target. This results in a 1/p2behavior at small energies. The presence of a similar enhancement in the antineutron case may only be justified by an interaction with a longer range than strong interactions. Excluding a Coulomb force because of the (Formula presented.) neutrality, and taking into account that an intrinsic electric dipole is forbidden for the antineutron, the next choice is an electric dipole that is induced by the nuclear electric field. Recent theoretical works have shown that a nonnegligible electric polarization may be induced in a neutron by QED vacuum polarization. Assuming this as a possibility, we have used a simple model to calculate the polarization strengths that are needed to fit the available data in terms of this effect. These are within the magnitude predicted by the vacuum polarization model. We have also discussed alternative scenarios that could induce an electric polarization of the antineutron as a consequence of the interplay between strong and e.m. interactions.

Enhancement of annihilation cross sections by electric interactions between the antineutron and the field of a large nucleus

Mascagna, V.;
2014-01-01

Abstract

Data relative to antineutron and antiproton annihilation on large nuclei in the range 75-200MeV/c present two unexpected features: a) antineutron and antiproton cross sections have a similar size, b) the rise of the antineutron cross section at decreasing energy is much steeper than predictable for an inelastic process of purely strong nature at that energy. The observed behavior of (Formula presented.)-nucleus annihilations is similar to what would be expected for (Formula presented.)-nucleus annihilations, where the Coulomb attraction focusses (Formula presented.) trajectories towards the nucleus, enhancing the inelastic cross section by a factor 1/p2with respect to (Formula presented.) on the same target. This results in a 1/p2behavior at small energies. The presence of a similar enhancement in the antineutron case may only be justified by an interaction with a longer range than strong interactions. Excluding a Coulomb force because of the (Formula presented.) neutrality, and taking into account that an intrinsic electric dipole is forbidden for the antineutron, the next choice is an electric dipole that is induced by the nuclear electric field. Recent theoretical works have shown that a nonnegligible electric polarization may be induced in a neutron by QED vacuum polarization. Assuming this as a possibility, we have used a simple model to calculate the polarization strengths that are needed to fit the available data in terms of this effect. These are within the magnitude predicted by the vacuum polarization model. We have also discussed alternative scenarios that could induce an electric polarization of the antineutron as a consequence of the interplay between strong and e.m. interactions.
2014
http://www.springerlink.com/content/1434-6001
Nuclear and High Energy Physics
Bianconi, A.; Lodi Rizzini, E.; Mascagna, V.; Venturelli, L.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/2077922
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