OBSERVATION OF THE STARK-EFFECT IN AUTOIONIZING RYDBERG STATES OF AR WITH A MULTICHANNEL QUANTUM-DEFECT ANALYSIS

H FIELDING; T SOFTLEY

doi:10.1088/0953-4075/25/20/010

OBSERVATION OF THE STARK-EFFECT IN AUTOIONIZING RYDBERG STATES OF AR WITH A MULTICHANNEL QUANTUM-DEFECT ANALYSIS

H FIELDING, T SOFTLEY

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Abstract

The Stark spectra of autoionizing Rydberg states of Ar converging to the second ionization limit 3p5 2P1/2 have been investigated, experimentally and theoretically, as a function of electric field strength, in the range 15-2000 V cm-1. The levels with effective principal quantum number v=12-19, are excited by single-photon absorption from the ground state using a coherent extreme ultraviolet laser source (bandwidth approximately 1.0 cm-1) generated by four-wave sum-frequency mixing of the outputs of two pulsed dye lasers; a detailed Stark map is obtained for the first time. A multichannel quantum-defect-theory analysis of the field-induced-state mixing is carried out, reproducing positions, widths and shapes of the experimentally observed features. In addition, this analysis provides new insight into the dynamical decay of the autoionizing states.

Original language	English
Pages (from-to)	4125-4139
Number of pages	15
Journal	Journal of Physics B Atomic Molecular and Optical Physics
Volume	25
DOIs	https://doi.org/10.1088/0953-4075/25/20/010
Publication status	Published - 1 Oct 1992

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title = "OBSERVATION OF THE STARK-EFFECT IN AUTOIONIZING RYDBERG STATES OF AR WITH A MULTICHANNEL QUANTUM-DEFECT ANALYSIS",

abstract = "The Stark spectra of autoionizing Rydberg states of Ar converging to the second ionization limit 3p5 2P1/2 have been investigated, experimentally and theoretically, as a function of electric field strength, in the range 15-2000 V cm-1. The levels with effective principal quantum number v=12-19, are excited by single-photon absorption from the ground state using a coherent extreme ultraviolet laser source (bandwidth approximately 1.0 cm-1) generated by four-wave sum-frequency mixing of the outputs of two pulsed dye lasers; a detailed Stark map is obtained for the first time. A multichannel quantum-defect-theory analysis of the field-induced-state mixing is carried out, reproducing positions, widths and shapes of the experimentally observed features. In addition, this analysis provides new insight into the dynamical decay of the autoionizing states.",

author = "H FIELDING and T SOFTLEY",

year = "1992",

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doi = "10.1088/0953-4075/25/20/010",

language = "English",

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T1 - OBSERVATION OF THE STARK-EFFECT IN AUTOIONIZING RYDBERG STATES OF AR WITH A MULTICHANNEL QUANTUM-DEFECT ANALYSIS

AU - FIELDING, H

AU - SOFTLEY, T

PY - 1992/10/1

Y1 - 1992/10/1

N2 - The Stark spectra of autoionizing Rydberg states of Ar converging to the second ionization limit 3p5 2P1/2 have been investigated, experimentally and theoretically, as a function of electric field strength, in the range 15-2000 V cm-1. The levels with effective principal quantum number v=12-19, are excited by single-photon absorption from the ground state using a coherent extreme ultraviolet laser source (bandwidth approximately 1.0 cm-1) generated by four-wave sum-frequency mixing of the outputs of two pulsed dye lasers; a detailed Stark map is obtained for the first time. A multichannel quantum-defect-theory analysis of the field-induced-state mixing is carried out, reproducing positions, widths and shapes of the experimentally observed features. In addition, this analysis provides new insight into the dynamical decay of the autoionizing states.

AB - The Stark spectra of autoionizing Rydberg states of Ar converging to the second ionization limit 3p5 2P1/2 have been investigated, experimentally and theoretically, as a function of electric field strength, in the range 15-2000 V cm-1. The levels with effective principal quantum number v=12-19, are excited by single-photon absorption from the ground state using a coherent extreme ultraviolet laser source (bandwidth approximately 1.0 cm-1) generated by four-wave sum-frequency mixing of the outputs of two pulsed dye lasers; a detailed Stark map is obtained for the first time. A multichannel quantum-defect-theory analysis of the field-induced-state mixing is carried out, reproducing positions, widths and shapes of the experimentally observed features. In addition, this analysis provides new insight into the dynamical decay of the autoionizing states.

U2 - 10.1088/0953-4075/25/20/010

DO - 10.1088/0953-4075/25/20/010

M3 - Article

SN - 0953-4075

VL - 25

SP - 4125

EP - 4139

JO - Journal of Physics B Atomic Molecular and Optical Physics

JF - Journal of Physics B Atomic Molecular and Optical Physics

ER -

OBSERVATION OF THE STARK-EFFECT IN AUTOIONIZING RYDBERG STATES OF AR WITH A MULTICHANNEL QUANTUM-DEFECT ANALYSIS

Abstract

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