Positron and positronium binding to atoms

Mitroy, Jim; Bromley, Michael W. J.; Ryzhikh, G. G.

doi:10.1088/0953-4075/35/13/201

Cited by 189 publications

(272 citation statements)

References 170 publications

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“…[156, p. 263]. What is of interest to us is the fact that, if annihilation is neglected, there are many examples of stable configurations where a positron is attached to an atom or an ion [3].…”

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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“…The form of the positron wave function used in the derivation is correct for binding by atoms or molecules with ionization potentials I > 6.8 eV. For atoms with I < 6.8 eV, the asymptotic wave function corresponds to Ps(1s) bound to the positive ion, and the dominant form of the bound-state wavefunction is the 'Ps-ion cluster' [12]. However, it still contains a 'positron-atom component,' and the present cross sections could be used with caution as order-of-magnitude estimates.…”

Section: Discussionmentioning

confidence: 99%

“…Detection of positron-atom bound states in reaction (2) will be the first observation of its kind. A comparison of the measured cross section with the theoretical results derived in this paper should provide an estimate of the positron binding energy, which could be compared with existing high-quality predictions [12][13][14]. It would also be interesting to apply this method to molecules for which the binding energies are known from the resonant annihilation studies [15,[19][20][21][22].…”

Section: Introductionmentioning

confidence: 90%

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Formation of positron-atom bound states in collisions between Rydberg Ps and neutral atoms

Swann¹,

Cassidy

Deller

et al. 2016

Phys. Rev. A

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Predicted twenty years ago, positron binding to neutral atoms has not yet been observed experimentally. A new scheme is proposed to detect positron-atom bound states by colliding Rydberg positronium (Ps) with neutral atoms. Estimates of the charge-transfer reaction cross section are obtained using the first Born approximation for a selection of neutral atom targets and a wide range of incident Ps energies and principal quantum numbers. We also estimate the corresponding Ps ionization cross section. The accuracy of the calculations is tested by comparison with earlier predictions for Ps charge transfer in collisions with hydrogen and antihydrogen. We describe an existing Rydberg Ps beam suitable for producing positron-atom bound states and estimate signal rates based on the calculated cross sections and realistic experimental parameters. We conclude that the proposed methodology is capable of producing such states and of testing theoretical predictions of their binding energies.

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Positron and positronium binding to atoms

Cited by 189 publications

References 170 publications

Stability of few-charge systems in quantum mechanics

Stability of few-charge systems in quantum mechanics

Positron scattering and annihilation from hydrogenlike ions

Formation of positron-atom bound states in collisions between Rydberg Ps and neutral atoms

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