C. E. Burkhardt scite author profile

The properties of Rydberg atoms are contrasted with those of hydrogen atoms using both classical and quantal points of view. It is shown that, classically, the effects of the ionic core of the Rydberg atom produce a precession of the otherwise Keplerian elliptical orbit of the excited electron, and that this precession is responsible for the nonhydrogenic properties. Using the correspondence principle, classical properties are then related to quantum mechanical properties by correlating the precession frequency with the quantum defect δl. The linear and quadratic Stark effects are also discussed and it is shown that a negative polarizability of the atom is a consequence of a positive ∂δl/∂l. In the Appendix, the ‘‘gravitational defect’’ associated with the precession of the perihelion of the Keplerian orbit of the planet Mercury is presented.

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Precision Stark spectroscopy of sodium: Improved values for the ionization limit and bound states

Ciocca

Burkhardt

Leventhal

et al. 1992

Phys. Rev. A

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Photoionization of the excited3pstate of sodium: Experiment and theory

et al. 1985

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C. E. Burkhardt

Absolute cross sections for the photoionization of the 6s6p ^{1}P excited state of barium

Absolute measurement of photoionization cross sections of excited atoms: Application to determination of atomic beam densities

Classical view of the properties of Rydberg atoms: Application of the correspondence principle

Precision Stark spectroscopy of sodium: Improved values for the ionization limit and bound states

Photoionization of the excited3pstate of sodium: Experiment and theory

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