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Fluorescence-detected ultrafast free-induction decay in powered rare earth solids

Luo, Q.; Dai, D.C.; Yu, X.Y.; Qiu, Z.R.; Zhou, J.Y.; Yan, C.H.; Chen, Z.D.

Authors

Q. Luo

D.C. Dai

X.Y. Yu

Z.R. Qiu

J.Y. Zhou

C.H. Yan

Z.D. Chen



Abstract

Fluorescence interferometry is developed and applied to study ultrafast amplitude and phase dynamics for free-induction decay in powdered rare earth solids. The time-resolved phase dynamics of free-induction decay through-out the decaying process is accurately determined by using a novel dual-channel correlation technique and subpi-cosecond dephasing time is measured for Nd3+ solids at room temperature. The phase dynamics is well simulated with linear coherent polarization theory

Citation

Luo, Q., Dai, D., Yu, X., Qiu, Z., Zhou, J., Yan, C., & Chen, Z. (2000). Fluorescence-detected ultrafast free-induction decay in powered rare earth solids. Chinese Physics Letters, 17(2), 101-103. https://doi.org/10.1088/0256-307x/17/2/009

Journal Article Type Article
Publication Date Feb 1, 2000
Deposit Date Sep 29, 2010
Journal Chinese Physics Letters
Print ISSN 0256-307X
Publisher IOP Publishing
Peer Reviewed Peer Reviewed
Volume 17
Issue 2
Pages 101-103
DOI https://doi.org/10.1088/0256-307x/17/2/009
Publisher URL http://cpl.iphy.ac.cn/qikan/epaper/zhaiyao.asp?bsid=3182

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