Resolved isotopic energy shift and hole burning in EuCl36H2O

J. P.D. Martin; M. J. Sellars; P. Tuthill; N. B. Manson; G. Pryde; T. Dyke

doi:10.1016/S0022-2313(97)00274-3

Resolved isotopic energy shift and hole burning in EuCl₃6H₂O

J. P.D. Martin^*, M. J. Sellars, P. Tuthill, N. B. Manson, G. Pryde, T. Dyke

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

The ⁷F₀ → ⁵D₀ transition in EuCl₃6H₂O is exceedingly narrow ∼ 0.5 GHz and exhibits partially resolved hyperfine splittings. Further, using EuCl₃6H₂O crystals with different ¹⁵¹Eu: ¹⁵³Eu isotope mixtures there is evidence of an isotope shift. Optical-RF double-resonance and burn-and-scan laser experiments employing the hole-burning behaviour of this transition support the analysis of the optical spectra.

Original language	English
Pages (from-to)	19-24
Number of pages	6
Journal	Journal of Luminescence
Volume	78
Issue number	1
DOIs	https://doi.org/10.1016/S0022-2313(97)00274-3
Publication status	Published - 30 Jan 1998

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10.1016/S0022-2313(97)00274-3

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title = "Resolved isotopic energy shift and hole burning in EuCl36H2O",

abstract = "The 7F0 → 5D0 transition in EuCl36H2O is exceedingly narrow ∼ 0.5 GHz and exhibits partially resolved hyperfine splittings. Further, using EuCl36H2O crystals with different 151Eu: 153Eu isotope mixtures there is evidence of an isotope shift. Optical-RF double-resonance and burn-and-scan laser experiments employing the hole-burning behaviour of this transition support the analysis of the optical spectra.",

keywords = "Double resonance, EuCl6HO, Hole burning, Isotope shift",

author = "Martin, \{J. P.D.\} and Sellars, \{M. J.\} and P. Tuthill and Manson, \{N. B.\} and G. Pryde and T. Dyke",

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doi = "10.1016/S0022-2313(97)00274-3",

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T1 - Resolved isotopic energy shift and hole burning in EuCl36H2O

AU - Martin, J. P.D.

AU - Sellars, M. J.

AU - Tuthill, P.

AU - Manson, N. B.

AU - Pryde, G.

AU - Dyke, T.

PY - 1998/1/30

Y1 - 1998/1/30

N2 - The 7F0 → 5D0 transition in EuCl36H2O is exceedingly narrow ∼ 0.5 GHz and exhibits partially resolved hyperfine splittings. Further, using EuCl36H2O crystals with different 151Eu: 153Eu isotope mixtures there is evidence of an isotope shift. Optical-RF double-resonance and burn-and-scan laser experiments employing the hole-burning behaviour of this transition support the analysis of the optical spectra.

AB - The 7F0 → 5D0 transition in EuCl36H2O is exceedingly narrow ∼ 0.5 GHz and exhibits partially resolved hyperfine splittings. Further, using EuCl36H2O crystals with different 151Eu: 153Eu isotope mixtures there is evidence of an isotope shift. Optical-RF double-resonance and burn-and-scan laser experiments employing the hole-burning behaviour of this transition support the analysis of the optical spectra.

KW - Double resonance

KW - EuCl6HO

KW - Hole burning

KW - Isotope shift

UR - https://www.scopus.com/pages/publications/0031680475

U2 - 10.1016/S0022-2313(97)00274-3

DO - 10.1016/S0022-2313(97)00274-3

M3 - Article

SN - 0022-2313

VL - 78

SP - 19

EP - 24

JO - Journal of Luminescence

JF - Journal of Luminescence

IS - 1

ER -

Resolved isotopic energy shift and hole burning in EuCl₃6H₂O

Abstract

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