[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"minerals:one:41290":3},{"id":4,"longid":5,"guid":6,"name":7,"shortcode_ima":8,"entrytype":9,"entrytype_text":10,"varietyof":11,"synid":11,"polytypeof":11,"groupid":12,"weighting":13,"nolocadd":14,"blacklisted":14,"mindat_formula":15,"mindat_formula_note":11,"ima_formula":15,"elements":16,"sigelements":22,"key_elements":23,"impurities":11,"cim":11,"ima_status":24,"ima_notes":11,"ima_history":11,"approval_year":26,"publication_year":27,"discovery_year":28,"strunz10ed1":29,"strunz10ed2":30,"strunz10ed3":31,"strunz10ed4":32,"dana8ed1":11,"dana8ed2":11,"dana8ed3":11,"dana8ed4":11,"csystem":33,"cclass":34,"spacegroup":35,"spacegroupset":36,"a":37,"b":38,"c":39,"alpha":11,"beta":11,"gamma":11,"aerror":40,"berror":41,"cerror":42,"alphaerror":11,"betaerror":11,"gammaerror":11,"va3":43,"z":44,"csmetamict":14,"commentcrystal":11,"twinning":45,"tranglide":11,"parting":11,"epitaxidescription":11,"morphology":46,"tlform":47,"hmin":40,"hmax":42,"hardtype":11,"vhnmin":48,"vhnmax":49,"vhnerror":11,"vhng":50,"vhns":11,"commenthard":11,"dmeas":11,"dmeas2":11,"dcalc":51,"dmeaserror":11,"dcalcerror":11,"commentdense":52,"lustre":11,"lustretype":53,"commentluster":11,"diapheny":11,"streak":54,"colour":55,"commentcolor":11,"colors":56,"streak_colors":61,"luminescence":11,"uv":11,"cleavage":62,"cleavagetype":63,"fracturetype":64,"tenacity":11,"commentbreak":11,"opticaltype":11,"opticalsign":11,"opticalalpha":11,"opticalalpha2":11,"opticalalphaerror":11,"opticalbeta":11,"opticalbeta2":11,"opticalbetaerror":11,"opticalgamma":11,"opticalgamma2":11,"opticalgammaerror":11,"opticalomega":11,"opticalomega2":11,"opticalomegaerror":11,"opticalepsilon":11,"opticalepsilon2":11,"opticalepsilonerror":11,"opticaln":11,"opticaln2":11,"opticalnerror":11,"optical2vcalc":11,"optical2vcalc2":11,"optical2vcalcerror":11,"optical2vmeasured":11,"optical2vmeasured2":11,"optical2vmeasurederror":11,"rimin":11,"rimax":11,"opticaldispersion":11,"opticalpleochroism":65,"opticalpleochorismdesc":66,"opticalbirefringence":11,"opticalcomments":11,"opticalcolour":67,"opticalinternal":68,"opticaltropic":69,"opticalanisotropism":70,"opticalbireflectance":70,"opticalextinction":11,"opticalr":71,"specdispm":11,"ir":11,"electrical":11,"magnetism":11,"thermalbehaviour":11,"other":72,"industrial":11,"occurrence":73,"otheroccurrence":11,"type_specimen_store":74,"description_short":75,"aboutname":76,"rock_parent":11,"rock_parent2":11,"rock_root":9,"rock_bgs_code":11,"meteoritical_code":11,"updttime":77,"reviewed_at":11,"variety_of":11,"varieties":78,"group_members":79,"associates":105,"confused_with":106,"type_localities":107,"occurrence_total":114,"citations":115,"images":151,"structures":152,"synonyms":159,"language_names":163,"wikidata_qid":181,"texts":182},41290,"1:1:41290:0","b2672de4-c13a-45ef-a1d6-830cf86c342d","Shulamitite","Sla",0,"mineral",null,50243,93,false,"Ca\u003Csub>3\u003C\u002Fsub>TiFe\u003Csup>3+\u003C\u002Fsup>AlO\u003Csub>8\u003C\u002Fsub>",[17,18,19,20,21],"Al","Ca","Fe","Ti","O",[17,18,19,20,21],[20],[25],"APPROVED",2011,2013,"2011","4","A","C","10","Orthorhombic",8,67,"Pmma ","5.4200","11.064","5.5383",6,1,7,332.12,2,"The simple (in 90°) and complex (in 90°, 45° and 60°) twinning is common.","Xenomorphic or subhedral grains and their intergrowths. Individual prismatic platelets and star-like aggregates. Prismatic crystals have following forms: {100}, {010}, and {001}, rhombic prisms are minor.","Reddish brown subhedral grains or prismatic platelets up to 0.2 mm and intergrowths up to 0.5 mm.","683","977",100,"3.84","Density in the range 3.84-3.865 was calculated","Adamantine,Sub-Metallic","Light brown","Reddish brown",[57,58,59,60],"brown","red","yellow","gray",[57],"Good on {010} and imperfect on {001} and {100}","Distinct\u002FGood","Irregular\u002FUneven","Visible","In thin section from reddish brown to yellow-brown, under reflected light from grey to light grey.","Grey to light grey","Yellow-brown","Anisotropic","Weak","(14.6, 13.4) 400, (13.6, 12.5) 420, (13.3, 12.2) 440, (12.9, 11.9) 460, (12.5, 11.6) 480, (12.6, 11.6) 500, (12.3, 11.4) 520, (12.2, 11.4) 540, (13.1, 12.2) 560, (12.5, 11.7) 580, (12.2, 11.6) 600, (12.2, 11.5) 620, (12.3, 11.5) 640, (12.3, 11.4) 660, (11.9, 11.3) 680, (11.7, 11.2) 700","Shulamitite is weakly resistant to weathering or retrograde alteration, sometimes transforming into a hydrated phase \u003Cf>CaTiFe3+AlO8.2-3H2O\u003C\u002Ff>.","Major to accessory mineral in high-temperature metacarbonate larnite rocks.","Mineralogical Museum of St. Petersburg State University, St. Petersburg (number 1\u002F19465) and the Central Siberian Geological Museum of V. S. Sobolev Institute of Geology and Mineralogy, Novosibirsk (number VII-87\u002F1), both in Russia.","Intermediate, entropy-stabilised phase between brownmillerite and perovskite. The Al analogue of sharyginite.\r\n\r\nKnown as a synthetic phase.\r\n\r\nCompare also Unnamed (Ca-Ti-Fe-Al Oxide II).","Named in honor of Shulamit Gross (1 October 1923, Grodno, Poland (now Belarus) - 19 September 2012), geologist, mineralogist, and emeritus member of the Geological Survey of Israel. She did a lot of early work on the the Hatrurim Formation, showing that many of the minerals formed by pyrometamorphism. In 1977 she published \"The Mineralogy of the Hatrurim Formation, Israel\" a monograph describing 123 mineral species discovered in the Hatrurim Formation. She discovered and described bentorite, ye’elimite, and hatrurite. The mineral \u003Cm>grossite\u003C\u002Fm> is also named for her. The name shulamitite, being a reddish brown mineral, is also related to biblical Shulamit, red-haired sweetheart of King Solomon.","2026-04-10 18:41:17",[],[80,87,93,99],{"id":81,"name":82,"entrytype":9,"csystem":33,"ima_formula":83,"mindat_formula":83,"hmin":11,"hmax":11,"dmeas":84,"dcalc":85,"primary_image_id":86},790,"Brownmillerite","Ca\u003Csub>2\u003C\u002Fsub>Fe\u003Csup>3+\u003C\u002Fsup>AlO\u003Csub>5\u003C\u002Fsub>","3.76","3.70",4058,{"id":88,"name":89,"entrytype":9,"csystem":33,"ima_formula":90,"mindat_formula":90,"hmin":91,"hmax":40,"dmeas":11,"dcalc":92,"primary_image_id":11},53166,"Nataliakulikite","Ca\u003Csub>4\u003C\u002Fsub>Ti\u003Csub>2\u003C\u002Fsub>(Fe\u003Csup>3+\u003C\u002Fsup>,Fe\u003Csup>2+\u003C\u002Fsup>)(Si,Fe\u003Csup>3+\u003C\u002Fsup>,Al)O\u003Csub>11\u003C\u002Fsub>",5.5,"4.006",{"id":94,"name":95,"entrytype":9,"csystem":33,"ima_formula":96,"mindat_formula":96,"hmin":91,"hmax":40,"dmeas":11,"dcalc":97,"primary_image_id":98},51845,"Sharyginite","Ca\u003Csub>3\u003C\u002Fsub>TiFe\u003Csub>2\u003C\u002Fsub>O\u003Csub>8\u003C\u002Fsub>","3.943",22177,{"id":100,"name":101,"entrytype":9,"csystem":33,"ima_formula":102,"mindat_formula":102,"hmin":91,"hmax":91,"dmeas":103,"dcalc":104,"primary_image_id":11},3736,"Srebrodolskite","Ca\u003Csub>2\u003C\u002Fsub>Fe\u003Csup>3+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>O\u003Csub>5\u003C\u002Fsub>","4.04","4.03",[],[],[108],{"id":109,"txt":110,"latitude":111,"longitude":112,"country":113},105759,"Hatrurim Basin, Tamar Regional Council, Beersheba Subdistrict, Southern District, Israel",31.2016667,35.2833333,"Israel",12,[116,121,126,131,136,139,143,147],{"id":117,"year":118,"html":119,"doi":120},13476332,1976,"Grenier, J.-C., Darriet, J., Pouchard, M., Hagenmuller, P. (1976) Mise en evidence d'une nouvelle famille de phases de type perovskite lacunaire ordonnee de formule A3M3O8 (AMO2,67) \u003Ci>Materials Research Bulletin\u003C\u002Fi>,  11 (10) 1219-1225 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002F0025-5408(76)90024-6'>doi:10.1016\u002F0025-5408(76)90024-6\u003C\u002Fa>","10.1016\u002F0025-5408(76)90024-6",{"id":122,"year":123,"html":124,"doi":125},13479599,1989,"Rodríguez-Carvajal, J., Vallet-Regí, M., González-Calbert, J.M. (1989) Perovskite threefold superlattices: A structure determination of the A3M3O8 phase. \u003Ci>Materials Research Bulletin\u003C\u002Fi>,  24 (4) 423-430 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002F0025-5408(89)90023-8'>doi:10.1016\u002F0025-5408(89)90023-8\u003C\u002Fa>","10.1016\u002F0025-5408(89)90023-8",{"id":127,"year":128,"html":129,"doi":130},16138665,1994,"Prasanna, T.R.S., Navrotsky, A. (1994) Energetics in the brownmillerite-perovskite pseudobinary Ca\u003Csub>2\u003C\u002Fsub>Fe\u003Csub>2\u003C\u002Fsub>O\u003Csub>5\u003C\u002Fsub>-CaTiO\u003Csub>3\u003C\u002Fsub>. \u003Ci>Journal of Materials Research\u003C\u002Fi>,  9 (12) 3121-3124 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1557\u002Fjmr.1994.3121'>doi:10.1557\u002Fjmr.1994.3121\u003C\u002Fa>","10.1557\u002Fjmr.1994.3121",{"id":132,"year":133,"html":134,"doi":135},241591,2008,"Sharygin, V.V., Sokol, E.V., Vapnik, Ye. (2008) Minerals of the pseudobinary perovskite-brownmillerite series from combustion metamorphic larnite rocks of the Hatrurim Formation (Israel) \u003Ci>Russian Geology and Geophysics\u003C\u002Fi>,  49 (10) 709-726 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.rgg.2008.03.001'>doi:10.1016\u002Fj.rgg.2008.03.001\u003C\u002Fa>","10.1016\u002Fj.rgg.2008.03.001",{"id":137,"year":26,"html":138,"doi":11},15984657,"Kolitsch, U. & Brandstätter, F. (2011): 1709) Srebrodolskit und die Phase Ca3Ti(Fe,Al)2O8 in einem Ca-reichen Xenolith aus dem Basaltbruch Klöch, Bad Radkersburg, Steiermark. Pp. 174-175 in Niedermayr, G. et al. (2011): Neue Mineralfunde aus Österreich LX. Carinthia II, 201.\u002F121., 135-186.",{"id":140,"year":26,"html":141,"doi":142},244172,"Williams, P. A., Hatert, F., Pasero, M., Mills, S. J. (2011) New minerals and nomenclature modifications approved in 2011, CNMNC Newsletter No. 10. \u003Ci>Mineralogical Magazine\u003C\u002Fi>,  75 (5) 2549-2561 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1180\u002Fminmag.2011.075.5.2549'>doi:10.1180\u002Fminmag.2011.075.5.2549\u003C\u002Fa> \u003Ca target='_blank' href='https:\u002F\u002Frruff.info\u002Fuploads\u002FMM75_2549.pdf' class='refpdflink'>\u003C\u002Fa>","10.1180\u002Fminmag.2011.075.5.2549",{"id":144,"year":27,"html":145,"doi":146},129202,"Sharygin, Victor V., Lazic, Biljana, Armbruster, Thomas M., Murashko, Mikhail N., Wirth, Richard, Galuskina, Irina O., Galuskin, Evgeny V., Vapnik, Yevgeny, Britvin, Sergey N., Logvinova, Alla M. (2013) Shulamitite Ca\u003Csub>3\u003C\u002Fsub>TiFe\u003Csup>3+\u003C\u002Fsup>AlO\u003Csub>8\u003C\u002Fsub> - a new perovskite-related mineral from Hatrurim Basin, Israel. \u003Ci>European Journal of Mineralogy\u003C\u002Fi>,  25 (1) 97-111 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1127\u002F0935-1221\u002F2013\u002F0025-2259'>doi:10.1127\u002F0935-1221\u002F2013\u002F0025-2259\u003C\u002Fa> \u003Ca target='_blank' href='https:\u002F\u002Frruff.info\u002Frruff_1.0\u002Fuploads\u002FEJM25_97.pdf' class='refpdflink'>\u003C\u002Fa>","10.1127\u002F0935-1221\u002F2013\u002F0025-2259",{"id":148,"year":149,"html":150,"doi":11},16967305,2016,"(2016) Shulamitite. \u003Ci>Handbook of Mineralogy\u003C\u002Fi>. Mineralogical Society of America \u003Ca target='_blank' href='https:\u002F\u002Fwww.handbookofmineralogy.org\u002Fpdfs\u002Fshulamitite.pdf' class='refpdflink'>\u003C\u002Fa>",[],[153],{"id":154,"url":155,"label":156,"formula":157,"spacegroup":158,"year":27},12703,"\u002Fcif\u002F12703.cif","Sharygin 2013","Ca3 (Ti Fe1.176 Al.824) O8","P m m a",[160,161,162],"IMA2011-016","Shulamitiet","Unnamed (Ca-Ti-Fe-Al Oxide)",[164,168,173,177],{"lang":165,"names":166},"ca",[167],"shulamitita",{"lang":169,"names":170},"de",[171,172],"IMA 2011-016","Shulamitit",{"lang":174,"names":175},"eu",[176],"Shulamitita",{"lang":178,"names":179},"it",[180],"shulamitite","Q19861280",{"history":11,"applications":11}]