Anomalies in the decay rates of antiprotonic helium-atom states | Zendy

H. Yamaguchi | Zendy; Takashi Ishikawa | Zendy; J. Sakaguchi | Zendy; E. Widmann | Zendy; J. Eades | Zendy; R. Hayano | Zendy; M. Hori | Zendy; H. Torii | Zendy; B. Juhász | Zendy; Dezsö Horváth | Zendy; Toshitsugu Yamazaki | Zendy

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Anomalies in the decay rates of antiprotonic helium-atom states

Author(s) -

H. Yamaguchi,

Takashi Ishikawa,

J. Sakaguchi,

E. Widmann,

J. Eades,

R. Hayano,

M. Hori,

H. Torii,

B. Juhász,

Dezsö Horváth,

Toshitsugu Yamazaki

Publication year - 2002

Publication title -

physical review a

Language(s) - English

Resource type - Journals

eISSN - 1094-1622

pISSN - 1050-2947

DOI - 10.1103/physreva.66.022504

Subject(s) - physics , atomic physics , excited state , antiproton , resonance (particle physics) , helium , coupling (piping) , atom (system on chip) , excitation , nuclear physics , proton , mechanical engineering , quantum mechanics , computer science , engineering , embedded system

Six resonance transitions of the antiprotonic helium atom in helium gas at densities of 3*10/sup 20/-3*10/sup 21/ cm/sup -3/ were studied at the antiproton decelerator (AD) of CERN. The decay rates of the daughter states of these transitions were determined either from the time distributions of the resonance spikes or from the widths of the resonance lines. Whereas most of the observed decay rates agree with theoretical calculations of Auger rates, two states, (n, l)=(37,33) and (32,31), were found to have decay rates two orders of magnitude larger than predicted by these calculations. The effect of coupling with near-lying electron-excited states is considered to be the reason for the anomaly of the (37, 33) state, as pointed out by Kartavtsev et al. Phys. Rev. A 61, 062507 (2000) (25 refs)

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