Magnetic-Field-Induced Alignment-to-Orientation Conversion in Sodium

G. W. Schinn; Xianming Han

doi:10.1103/PhysRevA.43.266

Magnetic-Field-Induced Alignment-to-Orientation Conversion in Sodium

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Abstract

We report a detailed investigation of excited-state alignment-to-orientation conversion in the presence of an external magnetic field. This counterintuitive phenomenon occurs under intermediate-coupling conditions. A weak, linearly polarized, cw laser beam was used to excite and align the Na 3P3/2 state in an atomic beam along the z direction. The degree of circular polarization of the resulting fluorescence was detected along the z direction as a function of magnetic-field strength. The spectrally integrated transitions originating from individual F levels of the 3S1/2 state yield a maximum circular-polarization fraction of ∼40%; integrating the circular polarization over all the allowed 3S1/2-3P3/2 transitions gives rise to an ∼8% effect. The results are predicted by the Breit formula, which is in excellent agreement with our observations.

Original language	American English
Journal	Scholarship and Professional Work - LAS
Volume	43
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.43.266
State	Published - Jan 1 1991

Keywords

Breit formula
excited-state alignment-to-orientation
external magnetic field
under intermediate-coupling conditions

Disciplines

Atomic, Molecular and Optical Physics
Physics

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title = "Magnetic-Field-Induced Alignment-to-Orientation Conversion in Sodium",

abstract = " We report a detailed investigation of excited-state alignment-to-orientation conversion in the presence of an external magnetic field. This counterintuitive phenomenon occurs under intermediate-coupling conditions. A weak, linearly polarized, cw laser beam was used to excite and align the Na 3P3/2 state in an atomic beam along the z direction. The degree of circular polarization of the resulting fluorescence was detected along the z direction as a function of magnetic-field strength. The spectrally integrated transitions originating from individual F levels of the 3S1/2 state yield a maximum circular-polarization fraction of ∼40%; integrating the circular polarization over all the allowed 3S1/2-3P3/2 transitions gives rise to an ∼8% effect. The results are predicted by the Breit formula, which is in excellent agreement with our observations.",

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AU - Schinn, G. W.

AU - Han, Xianming

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N2 - We report a detailed investigation of excited-state alignment-to-orientation conversion in the presence of an external magnetic field. This counterintuitive phenomenon occurs under intermediate-coupling conditions. A weak, linearly polarized, cw laser beam was used to excite and align the Na 3P3/2 state in an atomic beam along the z direction. The degree of circular polarization of the resulting fluorescence was detected along the z direction as a function of magnetic-field strength. The spectrally integrated transitions originating from individual F levels of the 3S1/2 state yield a maximum circular-polarization fraction of ∼40%; integrating the circular polarization over all the allowed 3S1/2-3P3/2 transitions gives rise to an ∼8% effect. The results are predicted by the Breit formula, which is in excellent agreement with our observations.

AB - We report a detailed investigation of excited-state alignment-to-orientation conversion in the presence of an external magnetic field. This counterintuitive phenomenon occurs under intermediate-coupling conditions. A weak, linearly polarized, cw laser beam was used to excite and align the Na 3P3/2 state in an atomic beam along the z direction. The degree of circular polarization of the resulting fluorescence was detected along the z direction as a function of magnetic-field strength. The spectrally integrated transitions originating from individual F levels of the 3S1/2 state yield a maximum circular-polarization fraction of ∼40%; integrating the circular polarization over all the allowed 3S1/2-3P3/2 transitions gives rise to an ∼8% effect. The results are predicted by the Breit formula, which is in excellent agreement with our observations.

KW - Breit formula

KW - excited-state alignment-to-orientation

KW - external magnetic field

KW - under intermediate-coupling conditions

UR - https://digitalcommons.butler.edu/facsch_papers/758

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DO - 10.1103/PhysRevA.43.266

M3 - Article

VL - 43

JO - Scholarship and Professional Work - LAS

JF - Scholarship and Professional Work - LAS

IS - 1

ER -

Magnetic-Field-Induced Alignment-to-Orientation Conversion in Sodium

Abstract

Keywords

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