Spin-orbit quenching of positronium during atomic collisions

Spin-orbit quenching of positronium during atomic collisions

When positrons are injected into a gas, 75% of the positronium (Ps) is likely to be formed as long-lived ortho-Ps. The main decay mechanisms for the ortho-Ps have been assumed to be natural decay of ortho-Ps and pickoff annihilation of the positron during Ps-atom collisions. A third possibility for...

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Veröffentlicht in:Physical review letters 2003-05, Vol.90 (18), p.183202-183202, Article 183202
Hauptverfasser: Mitroy, J, Novikov, S A
Format: Artikel
Sprache:eng
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Zusammenfassung:When positrons are injected into a gas, 75% of the positronium (Ps) is likely to be formed as long-lived ortho-Ps. The main decay mechanisms for the ortho-Ps have been assumed to be natural decay of ortho-Ps and pickoff annihilation of the positron during Ps-atom collisions. A third possibility for annihilation is ortho-Ps-->para-Ps conversion due to the spin-orbit interaction between the atom and colliding Ps. This extra quenching mechanism may explain a number of phenomena observed in the annihilation spectrum of Kr and Xe, including the very small Ps fraction of 3% seen for Xe.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.90.183202