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148 results on '"Cassidy, D. B."'

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

Author

Swann, A. R., Cassidy, D. B., Deller, A., and Gribakin, G. F.

Subjects
Physics - Atomic Physics
Abstract

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., Comment: 19 pages, 11 figures, submitted to Phys. Rev. A

Published
2016
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3. Single-color two-photon spectroscopy of Rydberg states in electric fields

Author

Wall, T. E., Cassidy, D. B., and Hogan, S. D.

Subjects
Physics - Atomic Physics
Abstract

Rydberg states of atomic helium with principal quantum numbers ranging from n=20 to n=100 have been prepared by non-resonance-enhanced single-color two-photon excitation from the metastable 2 {^3}S{_1} state. Photoexcitation was carried out using linearly and circularly polarized pulsed laser radiation. In the case of excitation with circularly polarized radiation, Rydberg states with azimuthal quantum number |m_{\ell}|=2 were prepared in zero electric field, and in homogeneous electric fields oriented parallel to the propagation axis of the laser radiation. In sufficiently strong electric fields, individual Rydberg-Stark states were resolved spectroscopically, highlighting the suitability of non-resonance-enhanced multiphoton excitation schemes for the preparation of long-lived high-|m_{\ell}| hydrogenic Rydberg states for deceleration and trapping experiments. Applications of similar schemes for Doppler-free excitation of positronium atoms to Rydberg states are also discussed.

Published
2014
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7. An energy tunable continuous 23S1 positronium beam.

Author

Newson, D. M., Babij, T. J., and Cassidy, D. B.

Subjects
POSITRONIUM, POSITRON beams, RADIATION, INTERFEROMETRY, SPECTROMETRY
Abstract

We describe the experimental production of a beam of 23S1 positronium (Ps) atoms obtained from charge-exchange collisions between a positron beam and Xe held in a gas cell. The angular divergence of the emitted Ps beam was recorded using two position sensitive detectors located at different distances from the gas cell. The fraction of the Ps beam produced in the 23S1 level was measured via the change in the Ps count rate after driving the 23S1 → 23P2 transition with microwave radiation; with optimal experimental parameters, we estimate that up to 10% of the Ps beam is formed in the 23S1 state. The measured properties of the beam were used to evaluate the feasibility of using the system for precision spectroscopy of the n = 2 Ps fine structure using Ramsey interferometry. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Measurement of the annihilation decay rate of 2 3S1 positronium.

Author

Sheldon, R. E., Babij, T. J., Devlin-Hill, B. A., Gurung, L., and Cassidy, D. B.

Abstract

We report a measurement of the annihilation decay rate of positronium (Ps) atoms,. Ground state atoms optically excited to radiatively metastable states were quenched via Stark mixing by the application of a time-delayed electric field. Rapid radiative decay of the Stark mixed states to the ground state, followed by self-annihilation, was observed via the annihilation radiation time spectrum, and used to determine the number of excited state atoms remaining at different times, and hence the decay rate. We obtain , in broad agreement with the Zeeman-shifted theoretical value of. [ABSTRACT FROM AUTHOR]

Published
2020
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47. Cassidyet alReply

Author

Cassidy, D. B., primary, Bromley, M. W. J., additional, Cota, L. C., additional, Hisakado, T. H., additional, Tom, H. W. K., additional, and Mills, A. P., additional

Published
2011
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