Isotope shift of the 543.3 nm laser transition of neon

1 March 1988

journal article
Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Journal of Quantum Electronics

Vol. 24 (3) , 501-502
https://doi.org/10.1109/3.152

Abstract

The isotope shift of the 543.3-nm laser transition of neon is measured to be 1.00+or-0.05 GHz, with neon-22 having a higher frequency than neon-20. A typical interferometer scan is shown. The isotope shifts for several of the prominent 2s and 3s to 2p and 3p laser transitions are also summarized in tabular form. For all four lines, the neon-22 frequency is higher than the neon-20 frequency. This is contrary to the expectation for the reduced-mass isotope effect and indicates that a specific mass effect is predominant.

Keywords

This publication has 8 references indexed in Scilit:

Doubly resonant intracavity generation of second harmonic of 1153-nm radiation with stabilization on hyperfine structure components of ^127I_2
Applied Optics, 1979
Description, Performance, and Wavelengths of Iodine Stabilized Lasers
Applied Optics, 1973
CW laser oscillation at 5433 Å in neon
IEEE Journal of Quantum Electronics, 1971
Lock-In and Intensity-Phase Interaction in the Ring Laser
Journal of Applied Physics, 1970
IODINE HYPERFINE STRUCTURE OBSERVED IN SATURATED ABSORPTION AT 633 nm
Applied Physics Letters, 1969
Pressure Shift and Broadening of Methane Line at 3.39 $μ$ Studied by Laser-Saturated Molecular Absorption
Physical Review Letters, 1969
ISOTOPE SHIFT MEASUREMENT FOR 6328 Å He–Ne LASER TRANSITION
Applied Physics Letters, 1965
Isotope Shift and Saturation Behavior of the $1.15 - μ$ Transition of Ne
Physical Review Letters, 1963