R.W. Stimets scite author profile

R.W. Stimets

5Publications

42Citation Statements Received

25Citation Statements Given

How they've been cited

101

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Affiliations

University of Massachusetts Lowell, Massachusetts Institute of Technology

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Fluorescence of trivalent neodymium in various materials excited by a 785 nm laser

Chen

Stimets

2014

American Mineralogist

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The nature of the fluorescence in the frequency-shift range of 1000-2500 cm -1 observed in the Raman spectra of many minerals when excited by a 785 nm laser has been investigated. Among the trivalent rare earths only Nd 3+ has the combination of a good ionic-radius match to substitute for Ca 2+ and an arrangement of energy levels to produce fluorescence in the frequency-shift range of interest. Raman/ fluorescence spectra of six calcium-based minerals, namely fluorite, calcite, powellite, scheelite, apatite, and grossular/tsavorite, have been obtained at both room temperature and liquid-nitrogen temperature and transition assignments made for the majority of fluorescence lines in fluorite, powellite, scheelite, and grossular/tsavorite. The room-temperature results agree closely with results on individual minerals obtained by previous workers for fluorite and scheelite. The liquid-nitrogen-temperature results as well as the transition assignments for powellite and grossular/tsavorite are new. The Nd concentration has been measured by laser-ablation induction-coupled-plasma mass spectrometry (LA-ICP-MS) and correlated with Nd 3+ fluorescence intensity where possible. For fluorite, the fluorescence intensity increases at least linearly with concentration at levels up to a few parts per million and then saturates at higher levels due to concentration quenching. Analysis of room-temperature Raman/fluorescence spectra of a much larger group of minerals available on the RRUFF web site shows that strong or very strong Nd 3+ fluorescence is much more likely in calcium-based minerals than in non-calcium-based ones and is completely absent for minerals containing iron in the chemical formula. Nd 3+ fluorescence is best understood in fluorite and less well understood in the other five minerals. Further study of calcite, apatite, and grossular/tsavorite is necessary to improve the understanding of the charge-compensation mechanisms and increase the number of identified transitions in calcite and apatite. The results of this work indicate that Nd 3+ fluorescence in calcium-based minerals, when excited by a 785 nm laser, has potential uses in three areas: mineral identification, structure characterization and determination of trace-element concentration.

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Rotational modulation of chromospheric variations of main-sequence stars

Stimets¹,

Giles²

1980

ApJ

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Far infrared absorption of amorphous GaAs and Ge

Stimets

Waldman

Lin

et al. 1973

Solid State Communications

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Reflection Studies of Coupled Magnetoplasma-Phonon Modes

Stimets

Lax

1970

Phys. Rev. B

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Rotational modulation of Ca K flux ratio and sunspot number

Stimets

Londono

1982

Sol Phys

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R.W. Stimets

Fluorescence of trivalent neodymium in various materials excited by a 785 nm laser

Rotational modulation of chromospheric variations of main-sequence stars

Far infrared absorption of amorphous GaAs and Ge

Reflection Studies of Coupled Magnetoplasma-Phonon Modes

Rotational modulation of Ca K flux ratio and sunspot number

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