The structure of exotic atoms containing positrons and positronium

Ryzhikh, G. G.; Mitroy, Jim; Varga, K.

doi:10.1088/0953-4075/31/17/019

Cited by 170 publications

(270 citation statements)

References 88 publications

(194 reference statements)

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“…Meanwhile, variational calculations have been pushed to higher accuracy. See, for instance, [150,155,160,161,162,163,164,165,166], and references therein. For instance, Zong-Chao Yan and Ho [166] obtained x ≃ 0.052.…”

Section: Pshmentioning

confidence: 99%

Stability of few-charge systems in quantum mechanics

2005

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We consider non-relativistic systems in quantum mechanics interacting through the Coulomb potential, and discuss the existence of bound states which are stable against spontaneous dissociation into smaller atoms or ions. We review the studies that have been made of specific mass configurations and also the properties of the domain of stability in the space of masses or inverse masses. These rigorous results are supplemented by numerical investigations using accurate variational methods. A section is devoted to systems of three arbitrary charges and another to molecules in a world with two space-dimensions.

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Section: Pshmentioning

confidence: 99%

Stability of few-charge systems in quantum mechanics

2005

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“…This effect will be called the clustering effect and is well known in condensed-matter systems [33,34], positron-atom scattering systems [20,29,30,36], and positron-atom bound states [19,37].…”

Section: On the Nature Of Annihilation Enhancementmentioning

confidence: 99%

Positron scattering and annihilation from hydrogenlike ions

2004

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The Kohn variational method is used with a configuration-interaction-type wave function to determine the J = 0 and J = 1 phase shifts and annihilation parameter Z eff for positron-hydrogenic ion scattering. The phase shifts are within 1 -2% of the best previous calculations. The values of Z eff are small and do not exceed unity for any of the momenta considered. At thermal energies Z eff is minute with a value of order 10 −50 occurring for He + at k = 0.05a 0 −1 . In addition to the variational calculations, analytic expressions for the phase shift and annihilation parameters within the Coulomb wave Born approximation are derived and used to help elucidate the dynamics of positron collisions with positive ions.

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“…(1) to Bee 1 , Mge 1 , LiPs, NaPs, and KPs implies pickoff annihilation rates of 10 11 s 21 or greater. LiPs [5], NaPs [5], and KPs [6] all have annihilation rates of about 2 3 10 9 s 21 , while those of Bee 1 [5] and Mge 1 [5] 7] have annihilation rates (per positron) of 2.45 3 10 9 and 2.3 3 10 9 s 21 , respectively. Pickoff annihilation contributes for both systems, but leads only to an annihilation rate slightly larger than G c .…”

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confidence: 99%

“…The evidence for exotic systems that bind a positron suggests that positron annihilation is dominated by direct annihilation with the cluster electron [5,6,8]. The cluster annihilation rate G c represents a natural upper limit to the annihilation rate in an atomic or molecular environment since the positron can form a cluster with only one electron.…”

mentioning

confidence: 99%

“…The cluster annihilation rate G c represents a natural upper limit to the annihilation rate in an atomic or molecular environment since the positron can form a cluster with only one electron. While pickoff annihilation can slightly increase the annihilation rate, the annihilation rate is largely determined by the extent to which a Ps cluster forms part of the total wave function, and none of these positron binding systems have an annihilation rate (per positron) larger than 2.5 3 10 9 s 21 [5][6][7][8][9].…”

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confidence: 99%

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