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Name: Beryl RRUFF ID: R110118 Ideal Chemistry: Be3Al2Si6O18 Locality: Synthetic Source: Gemological Institute of America 10-22-2010-23 [view label] Owner: RRUFF Description: A cut, pale pink (0.39ct) morganite gemstone, hydrothermally grown. Status: The identification of this mineral has been confirmed by single-crystal X-ray diffraction. |
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Mineral Group: [ Beryl (28) ] | ||
Quick search: [ All Beryl samples (19) ] |
RAMAN SPECTRUM | ||||||||||||
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BROAD SCAN WITH SPECTRAL ARTIFACTS | ||||||||||||
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POWDER DIFFRACTION | |||||||
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RRUFF ID: | R110118.9 | ||||||
Sample Description: | Single crystal, powder profile is calculated | ||||||
Cell Refinement Output: |
a: 9.219(1)Å b: 9.219(1)Å c: 9.205(1)Å alpha: 90° beta: 90° gamma: 120° Volume: 677.5(1)Å3 Crystal System: hexagonal |
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REFERENCES for Beryl | |
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American Mineralogist Crystal Structure Database Record: [view record] |
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Anthony J W, Bideaux R A, Bladh K W, and Nichols M C (1990) Handbook of Mineralogy, Mineral Data Publishing, Tucson Arizona, USA, by permission of the Mineralogical Society of America. [view file] |
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Gesner C (1565) Gemmis, quae erant in veste Aaronis, Liber Graecus, & e regione Latinus, Iola Hierotarantino interprete: cum Corollario Conradi Gesneri, in Sancti Patris Epiphanii Episcopi Cypri ad Diodorum Tyri episcopum, De XII 1-29 [view file] |
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Wallerius J G (1747) in Mineralogia, eller Mineralriket Stockholm [view file] |
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Vauquelin L N (1798) Sur une nouvell terre tirée de l´aigue marine, ou beril, Observations sur la Physique, sur lHistoire Naturelle et sur les Arts, 46, 158-158 [view file] |
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Radcliffe D, Campbell F A (1966) Beryl from Birch Portage, Saskatchewan, The Canadian Mineralogist, 8, 493-505 [view file] |
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Gibbs G V, Breck D W, Meagher E P (1968) Structural refinement of hydrous and anhydrous synthetic beryl, Al2(Be3Si6)O18 and emerald, Al1.9Cr0.1(Be3Si6)O18, Lithos, 1, 275-285 |
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Adams D M, Gardner I R (1974) Single-crystal vibrational spectra of beryl and dioptase, Dalton Transactions, 1974, 1502-1505 |
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Černý P, Hawthorne F C (1976) Refractive indices versus alkali contents in beryl: General limitations and applications to some pegmatitic types, The Canadian Mineralogist, 14, 491-497 [view file] |
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Černý P, Simpson F M (1977) The Tanco pegmatite at Bernic Lake, Manitoba. IX. Beryl, The Canadian Mineralogist, 15, 489-499 [view file] |
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Hawthorne F C, Černý P (1977) The alkali-metal positions in Cs-Li beryl, The Canadian Mineralogist, 15, 414-421 [view file] |
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Fritsch E, Rossman G R (1987) An update on color in gems. Part 1: Introduction and colors caused by dispersed metal ions, Gems & Gemology, Fall, 126-139 |
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Hofmeister A M, Hoering T C, Virgo D (1987) Vibrational spectroscopy of of beryllium aluminosilicates: heat capacity calculations from band assignments, Physics and Chemistry of Minerals, 14, 205-224 |
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Manier-Glavinaz V, Couty R, Lagache M (1989) The removal of alkalis from beryl: Structural adjustments, The Canadian Mineralogist, 27, 663-671 [view file] |
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Hagemann H, Lucken A, Bill H, Gysler-Sanz J, Stalder H A (1990) Polarized Raman spectra of beryl and bazzite, Physics and Chemistry of Minerals, 17, 395-401 |
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Sanders I S, Doff D H (1991) A blue sodic beryl from southeast Ireland, Mineralogical Magazine, 55, 167-172 |
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Sherriff B L, Grundy H D, Hartman J S, Hawthorne F C, Černý P (1991) The incorporation of alkalis in beryl: multi-nuclear MAS NMR and crystal-structure study, The Canadian Mineralogist, 29, 271-285 [view file] |
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Taylor R P, Fallick A E, Breaks F W (1992) Volatile evolution in Archean rare-element granitic pegmatites: evidence from the hydrogen isotopic composition of channel H2O in beryl, The Canadian Mineralogist, 30, 877-893 [view file] |
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Artioli G, Rindali R, Ståhl K, Zanazzi P F (1993) Structure refinements of beryl by single-crystal neutron and X-ray diffraction, American Mineralogist, 78, 762-768 [view file] |
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Kim C C, Bell M I, McKeown D A (1995) Vibrational analysis of beryl (Be3Al2Si6O18) and its constituent ring (Si6O18), Physica B, 205, 193-208 |
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Pilati T, Demartin F, Gramaccioli C M (1997) Lattice-dynamical evaluation of thermodynamic properties and atomic displacement parameters for beryl using a transferable empirical force field, American Mineralogist, 82, 1054-1062 [view file] |
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Kloprogge J T, Frost R L (2000) Raman microscopic study at 300 and 77 K of some pegmatite minerals from the Iveland-Evje area, Aust-Agder, Southern Norway, Spectrochimica Acta Part A-Molecular and Biomolecular Spectroscopy, 56, 501-513 [link] |
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Kolesov B A, Geiger C A (2000) The orientation and vibrational states of H2O in synthetic alkali-free beryl, Physics and Chemistry of Minerals, 27, 557-564 [link] |
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Moroz I, Roth M, Boudeulle M, Panczer G (2000) Raman microspectroscopy and fluorescence of emeralds from various deposits, Journal of Raman Spectroscopy, 31, 485-490 |
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Diego Gatta G, Nestola F, Bromiley G D, Mattauch S (2006) The real topological configuration of the extra-framework content in alkali-poor beryl: a multi-methodological study, American Mineralogist, 91, 29-34 [view file] |
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Adamo I, Gatta G D, Rotiroti N, Diella V, Pavese A (2008) Gemmological investigation of a synthetic blue beryl: a multi-methodological study, Mineralogical Magazine, 72, 799-808 [view file] |
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Fukuda J, Shinoda K, Nakashima S, Miyoshi N, Aikawa N (2009) Polarized infrared spectroscopic study of diffusion of water molecules along structure channels in beryl, American Mineralogist, 94, 981-985 [view file] |
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Groat L A, Rossman G R, Dyar M D, Turner D, Piccoli P M B, Schultz A J, Ottolini L (2010) Crystal chemistry of dark blue aquamarine from the True Blue showing, Yukon Territory, Canada, The Canadian Mineralogist, 48, 597-613 [view file] |
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Huong L T T, Häger T, Hofmeister W (2010) Confocal micro-Raman spectroscopy: a powerful tool to identify natural and synthetic emeralds, Gems & Gemology, 46, 36-41 |
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Andersson L O (2013) The yellow color center and trapped electrons in beryl, The Canadian Mineralogist, 51, 15-25 |
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Přikryl J, Novák M, Filip J, Gadas P, Galiová M V (2014) Iron+magnesium-bearing beryl from granitic pegmatites: an empa, LA-ICP-MS, Mössbauer spectroscopy, and powder XRD study, The Canadian Mineralogist, 52, 271-284 |
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Sardi F G, Heimann A (2014) Pegmatitic beryl as indicator of melt evolution: example from the Velasco district, Pampeana Pegmatite Province, Argentina, and review of worldwide occurrences, The Canadian Mineralogist, 52, 809-836 |
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Ollier N, Fuchs Y, Cavani O, Horn A H, Rossano S (2015) Influence of impurities on Cr3+ luminescence properties in Brazilian emerald and alexandrite, European Journal of Mineralogy, 27, 783-792 |
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Mashkovtsev R I, Thomas V G, Fursenko D A, Zhukova E S, Uskov V V, Gorshunov B P (2016) FTIR spectroscopy of D2O and HDO molecules in the c-axis channels of synthetic beryl, American Mineralogist, 101, 175-180 |
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Tempesta G, Agrosì G (2016) Standardless, minimally destructive chemical analysis of red beryls by means of Laser Induced Breakdown Spectroscopy, European Journal of Mineralogy, 28, 571-580 |
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Jehlička J, Culka A, Bersani D, Vandenabeele P (2017) Comparison of seven portable Raman spectrometers: beryl as a case study, Journal of Raman Spectroscopy, 48, 1289-1299 |
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Kurumathoor R, Franz Gerhard (2018) Etch pits on beryl as indicators of dissolution behavior, European Journal of Mineralogy, 30, 107-124 |
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Andersson L O (2019) Comments on beryl colors and on other observations regarding iron-containing beryls, The Canadian Mineralogist, 57, 551-566 |
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Franz G, Vyshnevskyi O, Taran M, Khomenko V, Wiedenbeck M, Schiperski F, Nissen J (2020) A new emerald occurrence from Kruta Balka, Western Peri-Azovian region, Ukraine: Implications for understanding the crystal chemistry of emerald, American Mineralogist, 105, 162 |
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Henry R E, Groat L E, Cempírek J, Škoda R, Holá M (2023) Predicting the crystal structure of beryl from the chemical composition, The Canadian Journal of Mineralogy and Petrology, 61, 873-897 |
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