Luminescence, fluorescence et phosphorescence des minéraux: fiche descriptive

ARAGONITE

Formule chimique: CaCO₃

Famille: Carbonates

Statut: IMA-GP

Système cristallin : Orthorhombique

Minéral de vitrine: OUI

Noms associés (variétés luminescentes, noms discrédités, synonymes etc.): flos ferri, nicholsonite, strontio-aragonite, mossottite, tarnowitzite, ammolite, septaria, perle, ktypéite, Erzbergite,

Luminescence:

Type d'UV	Couleur principale (*)	Intensité	Fréquence d'observation

UV longs (365nm):	Blanc jaunâtre (crème)	Forte	Très souvent
UV moyens (320 nm):	Rose
UV courts (254 nm):	Blanc bleuté	Moyenne	Très souvent

Autres couleurs OL:	Blanc , Blanc bleuté , Blanc rosâtre , Orange , Rouge orange ("saumon") , Rouge , Rouge violacé , Rose violacé , Rose , Rose saumon (rose orange) , Bleu , Blanc verdâtre ,
Autres couleurs OM:	Blanc , Blanc bleuté , Blanc jaunâtre (crème) , Blanc rosâtre , Jaune pâle , Rouge orange ("saumon") , Rouge , Rouge violacé , Rose violacé , Rose saumon (rose orange) , Blanc verdâtre , Jaunâtre ,
Autres couleurs OC:	Blanc , Blanc bleuté , Blanc jaunâtre (crème) , Blanc rosâtre , Jaune pâle , Orange , Rouge orange ("saumon") , Rouge , Rouge violacé , Rose violacé , Rose , Rose saumon (rose orange) , Vert jaune , Vert , Blanc verdâtre , Jaunâtre ,

(*)Vous pouvez ouvrir la charte des couleurs dans une nouvelle fenêtre

Photo Ondes longues (365nm)

ARAGONITE, Sicily, Italy.
OL (365 nm)
Col. G.Barmarin; Photo: G. Barmarin

Photo Ondes Courtes (254nm)

ARAGONITE, Sicily, Italy.
OC (254 nm)
Col. G.Barmarin; Photo: G. Barmarin

Galerie de photos:

...

Accès à la galerie complète (8 images au total)

Phosphorescence (au sens commun du terme) observable à l'oeil nu:

Type d'UV	Couleur	Intensité	Fréquence d'observation
UV longs (365nm):	Blanc verdâtre	Forte	Souvent
UV moyens (320 nm):	Blanc verdâtre	Forte	Souvent
UV courts (254 nm):	Blanc verdâtre	Forte	Souvent

Thermoluminescence: OUI

Commentaires:

Nicholsonite (aragonite zincifère): OL: jaune-orangé; OC: blanc-bleuté, crème;
Strontio-aragonite: OL: rouge-orangé, rose; OC: rose, blanc;
Tarnowitzite (aragonite plombifère): OL:orange, jaune, crème, vert; OC: jaune, crème;

Kunz et Baskerville font remarquer que l'aragonite est souvent fluorescente lors de leur étude mémorable de 13000 spécimens de minéraux en 1903.

Activateur(s) et spectre(s):

Activateur le plus courant: Mn²⁺

Autres activateurs: (UO₂)²⁺ (ion Uranyle) en impureté, ST (Singlet-triplet)-Matière organique en impureté, Ce³⁺, Sm³⁺, Eu³⁺, Dy³⁺, Centres dûs aux effets des radiations,

Pics dans le spectre (nm):

Sm³⁺ repl. Ca²⁺ : 603, 640nm

Mn²⁺ : broad band at 630nm (120nm half-width)

Dy³⁺ : 482, 486, 578, 579nm

Radiation induced center : 580nm (very short decay time of approximately 20 ns)

Spectrum: Michael Gaft, Petah Tikva, Israel. Plot: Institute of Mineralogy, University of Vienna, Austria, with permission of the authors.

...

Vers la galerie de spectres (3 spectres au total)

Commentaires sur les spectres et les activateurs (*):

Fluo green: due to U in traces;
Activators: Mn2+, Sm3+, Dy3+ (Gaft)
The broad luminescence band peaking at 580 nm with very short decay time of approximately 20 ns, could by analogy with Terlingua-type calcite may be preliminarily ascribed to radiation induced luminescence center. (Gaft)

Under cw laser excitation at 532 and 780nm several bands and narrow lines have been found in visible and IR parts of the spectrum. Evidently they may be connected with another type of Mn²⁺, trivalent REE, such as Sm³⁺, Eu³⁺ and different types of Nd³⁺ centers. The origin of the broad band peaking at approximately 700 nm needs further study.

The frequent occurrence of slight amounts of Strontium in aragonite was known during the time of Becquerel and he ascribed the luminescence to the presence of strontium. Later, Nichols confirmed the idea. Hence the name strontioaragonite for some specimen of very bright red fluorescing aragonite.

Actually, strontium is not considered anymore as the activator responsable for the red fluorescence of aragonite and Mn and REE are considered as the principal activators of this red fluorescence.

(*)Les commentaires sur les spectres sont uniquement rédigés en Anglais

Meilleure(s) localité(s) pour la fluorescence (*):

Strontio-aragonite: red SW and LW, Boccheggiano mines, Montieri, Grosseto Province, Tuscany, Italy;
Aragonite fluo pink/salmon LW, white SW : Sulphur Mine near Agrigento, Agrigento Province, Sicily, Italy;
Giumentaro Mine (Capodarso Mine), Capodarso, Enna (Castrogiovanni), Enna Province, Sicily, Italy;
Cozzo Disi Mine, Casteltermini, Agrigento Province, Sicily, Italy;
Nicholsonite: fluo and phospho white SW & cream LW, Zinc Mine Friedenville, Friedensville, Saucon Valley, Upper Saucon Township, Lehigh Co., Pennsylvania, USA
Tarnowitzite:yellowish-white, strongest SW or red SW: Tsumeb Mine, Tsumeb, Otjikoto Region, Namibia;
Tarnowitzite: Touissit, Touissit District, Jerada Province, Oriental Region, Morocco ( Straw-yellow fluorescence SW+LW);
Aragon de Molina, Spain (Twinned xls agregated in balls);
Tazouta, Sefrou, Sefrou Province, Fès-Boulemane Region, Morocco (Twinned xls agregated in balls, dull green SW);
Chihuahua, Mexico (bright green SW);
Gallo river, Molina de Aragón, Guadalajara, Castile-La Mancha, Spain (dull white SW);
Pantoja, Toledo, Castile-La Mancha, Spain (Acicular Aragonite bright blue-white LW);
Great Southern Mine, Red Picacho District, Wickenburg area, Yavapai Co., Arizona, USA;
Copper Canyon, Camp Verde, Camp Verde District, Yavapai Co., Arizona, USA (aragonite pseudomorph after glauberite, cream-yellow LW, MW & SW);
Bisbee, Warren District, Mule Mts, Cochise Co., Arizona, USA (Patches of bright green fluorescence under SW & patches of bright creamy white fluo LW);
Long Lake Zinc Mine, Olden Township, Frontenac Co., Ontario, Canada (fluo blue SW in red fluo calcite);

(*)Les données ne sont pas exhaustives et sont limitées à quelques localités remarquables pour la fluorescence

Référence bibliographique pour la luminescence:

The Henkel Glossary of Fluorescent Minerals, Dr. Gerhard Henkel, Published by the FMS, 1989 ,
Fluorescence: Gems and Minerals Under Ultraviolet Light, Manuel Robbins, 1994, Geoscience Press, ISBN 0-945005-13-X ,
The World of Fluorescent Minerals, Stuart Schneider, Schiffer Publishing, 2006, ISBN 0-7643-2544-2 ,
Luminescence Spectroscopy of Minerals and Materials, M. Gaft, R. Reisfeld, G. Panczer, Springer Editor, ISBN: 10 3-540-21918-8 ,
Luminescent Spectra of Minerals, Boris S. Gorobets and Alexandre A. Rogojine, Moscow, 2002 ,
Handbook of Fluorescent Gems and Minerals, a practical guide for the gem and mineral collector, Jack de Ment, 1949 ,

Référence pour la luminescence sur internet:

MONT-SAINT-HILAIRE, History, Geology, Mineralogy, Laszlo HORVATH, The Canadian Mineralogist, Special Publication 14, 2019

Images:

Pantoja, Toledo, Spain (Acicular Aragonite bright blue-white LW): http://www.mindat.org/photo-100547.html
Great Southern Mine, Arizona, USA (with calcite & fluorite): http://www.mindat.org/photo-67554.html
Great Southern Mine, Arizona, USA (with calcite & fluorite, details): http://www.mindat.org/photo-67557.html
Agrigento, Agrigento Province, Sicily, Italy: http://www.mindat.org/photo-415916.html
Giumentaro Mine, Enna Province, Sicily, Italy: https://www.mindat.org/photo-504841.html
Bisbee, Arizona, USA: http://www.mindat.org/photo-505652.html
Long Lake Zinc Mine, Ontario, Canada:
Nicholsonite: Zinc Mine Friedenville, Pennsylvania, USA (SW): http://www.mindat.org/photo-573241.html
Nicholsonite: Zinc Mine Friedenville, Pennsylvania, USA (LW): http://www.mindat.org/photo-573242.html
Nicholsonite: Zinc Mine Friedenville, Pennsylvania, USA (SW): http://www.mindat.org/photo-573244.html
Nicholsonite: Zinc Mine Friedenville, Pennsylvania, USA (LW): http://www.mindat.org/photo-573245.html