Time-resolved spectral holeburning in LaF3:Ho3+ and YLiF4:Er3+

R. Wannemacher; R.S. Meltzer; R.M. Macfarlane

doi:10.1016/0022-2313(90)90179-F

Journal of Luminescence

Paper

01 Jan 1990

Time-resolved spectral holeburning in LaF₃:Ho³⁺ and YLiF₄:Er³⁺

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Abstract

We have used delayed optical free induction decay and time resolved holeburning with microsecond resolution to investigate spectral diffusion in LaF3+ and YLiF4+ at 1.4 K. The magnetic moments of the rare earth ions strongly perturb the nuclear spins of neighboring fluorine ions, resulting in a distribution of fluorine flip rates. Spectral diffusion arises from the coupling of the rare earth centers to the fluorine nuclear magnetic moments. Increases in holewidth of up to two orders of magnitude were observed between 1 μs and 10 ms. © 1990.

Paper

The DX centre

T.N. Morgan

Semiconductor Science and Technology

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Shear and time-dependent rheology of a fully nematic thermotropic liquid crystalline copolymer

Douglass S. Kalika, David W. Giles, et al.

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Application of block-copolymer supramolecular assembly for the fabrication of complex TiO₂ nanostructures

Sung Ho Kim, Oun-Ho Park, et al.

Small

Conference paper

Growth and transport properties of multilayer superconducting films of Nd_1.83Ce_0.17CuO_x / YBa₂Cu₃O_7-δ

A. Gupta, R. Gross, et al.

SPIE Advances in Semiconductors and Superconductors 1990

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Abstract

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