[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"minerals:one:7335":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":16,"ima_formula":17,"elements":18,"sigelements":25,"key_elements":26,"impurities":11,"cim":11,"ima_status":27,"ima_notes":29,"ima_history":31,"approval_year":32,"publication_year":33,"discovery_year":11,"strunz10ed1":34,"strunz10ed2":35,"strunz10ed3":35,"strunz10ed4":36,"dana8ed1":37,"dana8ed2":38,"dana8ed3":39,"dana8ed4":40,"csystem":41,"cclass":42,"spacegroup":43,"spacegroupset":44,"a":45,"b":44,"c":46,"alpha":44,"beta":44,"gamma":44,"aerror":47,"berror":11,"cerror":48,"alphaerror":11,"betaerror":11,"gammaerror":11,"va3":11,"z":49,"csmetamict":14,"commentcrystal":50,"twinning":11,"tranglide":11,"parting":11,"epitaxidescription":11,"morphology":11,"tlform":51,"hmin":52,"hmax":48,"hardtype":11,"vhnmin":44,"vhnmax":44,"vhnerror":11,"vhng":11,"vhns":11,"commenthard":11,"dmeas":53,"dmeas2":53,"dcalc":54,"dmeaserror":48,"dcalcerror":55,"commentdense":11,"lustre":56,"lustretype":56,"commentluster":11,"diapheny":11,"streak":57,"colour":58,"commentcolor":11,"colors":59,"streak_colors":62,"luminescence":11,"uv":63,"cleavage":64,"cleavagetype":65,"fracturetype":66,"tenacity":11,"commentbreak":11,"opticaltype":67,"opticalsign":68,"opticalalpha":44,"opticalalpha2":44,"opticalalphaerror":11,"opticalbeta":44,"opticalbeta2":44,"opticalbetaerror":11,"opticalgamma":44,"opticalgamma2":44,"opticalgammaerror":11,"opticalomega":69,"opticalomega2":44,"opticalomegaerror":11,"opticalepsilon":70,"opticalepsilon2":44,"opticalepsilonerror":11,"opticaln":44,"opticaln2":44,"opticalnerror":11,"optical2vcalc":44,"optical2vcalc2":44,"optical2vcalcerror":11,"optical2vmeasured":44,"optical2vmeasured2":44,"optical2vmeasurederror":11,"rimin":71,"rimax":72,"opticaldispersion":11,"opticalpleochroism":73,"opticalpleochorismdesc":74,"opticalbirefringence":11,"opticalcomments":11,"opticalcolour":11,"opticalinternal":11,"opticaltropic":11,"opticalanisotropism":11,"opticalbireflectance":11,"opticalextinction":11,"opticalr":11,"specdispm":11,"ir":11,"electrical":11,"magnetism":11,"thermalbehaviour":11,"other":75,"industrial":11,"occurrence":11,"otheroccurrence":11,"type_specimen_store":76,"description_short":77,"aboutname":78,"rock_parent":11,"rock_parent2":11,"rock_root":9,"rock_bgs_code":11,"meteoritical_code":11,"updttime":79,"reviewed_at":11,"variety_of":11,"varieties":80,"group_members":81,"associates":162,"confused_with":163,"type_localities":164,"occurrence_total":171,"citations":172,"images":202,"structures":213,"synonyms":214,"language_names":219,"wikidata_qid":241,"texts":242},7335,"1:1:7335:2","89332f23-7536-4fa0-9165-246059877ef1","Thérèsemagnanite","Tmg",0,"mineral",null,470918,163,false,"NaCo\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub>Cl·6H\u003Csub>2\u003C\u002Fsub>O","First described as a (Na-free) mineral with the formula (Co,Zn,Ni)6(SO4)(OH,Cl)10·8H2O, redefined in 2015. The formula was then redefined by Kasatkin et al. (2018) and the structure established by Mills et al. (2019).","NaCo\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub>Cl · 6H\u003Csub>2\u003C\u002Fsub>O",[19,20,21,22,23,24],"Cl","Co","Na","O","S","H",[19,20,21,22,23,24],[19,20],[28],"APPROVED",[30],"REDEFINED","Redefined in 2015 as the Co analogue of gordaite.",1991,1993,"7","D","80","31","2","5","1","Trigonal",10,79,"0","8.363","13.031",8,2,3,"Cell data for neotype (Kasatkin et al., 2018).","Occurs as pink to light pink, thin platy crystals, making up radiating spherules to 0.2mm.",1.5,"2.52","2.48",1,"Pearly","Light pink","Pink to light pink",[60,61],"pink","colorless",[60],"None","{001}","Perfect","Irregular\u002FUneven","Uniaxial","-","1.568","1.542",1.542,1.568,"Strong","0=pink, E=light pink to colorless.","Soluble in HCl","Mineralogy Department of the Natural History Museum, Geneva, Switzerland.","Thérèsemagnanite may be closely related to gordaite (Kolitsch, unpubl. data, 1999): \r\n- the indexed X-ray powder patterns of both minerals are very similar\r\n- both gordaite and thérèsemagnanite are uniaxial negative and their refractive indices and bir...","Named for Marie-Thérèse Magnan (Toulon, France) for her contributions to knowledge about the Cap Garonne mine, Var (France).","2026-01-18 04:06:08",[],[82,90,99,108,114,120,125,132,139,147,157],{"id":83,"name":84,"entrytype":9,"csystem":41,"ima_formula":85,"mindat_formula":86,"hmin":48,"hmax":49,"dmeas":87,"dcalc":88,"primary_image_id":89},593,"Bechererite","Zn\u003Csub>7\u003C\u002Fsub>Cu(OH)\u003Csub>13\u003C\u002Fsub>[SiO(OH)\u003Csub>3\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)]","Zn\u003Csub>7\u003C\u002Fsub>Cu(OH)\u003Csub>13\u003C\u002Fsub>[(SiO(OH)\u003Csub>3\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)]","3.45","3.51",2932,{"id":91,"name":92,"entrytype":9,"csystem":41,"ima_formula":93,"mindat_formula":94,"hmin":95,"hmax":95,"dmeas":96,"dcalc":97,"primary_image_id":98},6975,"Gordaite","NaZn\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub>Cl · 6H\u003Csub>2\u003C\u002Fsub>O","NaZn\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub>Cl·6H\u003Csub>2\u003C\u002Fsub>O",2.5,"2.627","2.640",10236,{"id":100,"name":101,"entrytype":9,"csystem":102,"ima_formula":103,"mindat_formula":104,"hmin":52,"hmax":48,"dmeas":105,"dcalc":106,"primary_image_id":107},1765,"Guarinoite","Hexagonal","Zn\u003Csub>6\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>10\u003C\u002Fsub> · 5H\u003Csub>2\u003C\u002Fsub>O","Zn\u003Csub>6\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>10\u003C\u002Fsub>·5H\u003Csub>2\u003C\u002Fsub>O","2.80","2.77",10552,{"id":109,"name":110,"entrytype":9,"csystem":102,"ima_formula":111,"mindat_formula":112,"hmin":49,"hmax":11,"dmeas":113,"dcalc":11,"primary_image_id":11},56042,"Hanahanite","[Zn\u003Csub>8\u003C\u002Fsub>(OH)\u003Csub>14\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)] · 3H\u003Csub>2\u003C\u002Fsub>O","[Zn\u003Csub>8\u003C\u002Fsub>(OH)\u003Csub>14\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)]·3H\u003Csub>2\u003C\u002Fsub>O","3.28",{"id":115,"name":116,"entrytype":9,"csystem":117,"ima_formula":118,"mindat_formula":118,"hmin":95,"hmax":11,"dmeas":119,"dcalc":11,"primary_image_id":11},56030,"Haywoodite","Triclinic","[Pb(H\u003Csub>2\u003C\u002Fsub>O)\u003Csub>10\u003C\u002Fsub>][Zn\u003Csub>12\u003C\u002Fsub>(OH)\u003Csub>20\u003C\u002Fsub>(H\u003Csub>2\u003C\u002Fsub>O)(SO\u003Csub>4\u003C\u002Fsub>)\u003Csub>3\u003C\u002Fsub>]","3.27",{"id":121,"name":122,"entrytype":9,"csystem":41,"ima_formula":123,"mindat_formula":124,"hmin":11,"hmax":11,"dmeas":11,"dcalc":11,"primary_image_id":11},47602,"Hodgesmithite","(Cu,Zn)\u003Csub>6\u003C\u002Fsub>Zn(SO\u003Csub>4\u003C\u002Fsub>)\u003Csub>2\u003C\u002Fsub>(OH)\u003Csub>10\u003C\u002Fsub> · 3H\u003Csub>2\u003C\u002Fsub>O","(Cu,Zn)\u003Csub>6\u003C\u002Fsub>Zn(SO\u003Csub>4\u003C\u002Fsub>)\u003Csub>2\u003C\u002Fsub>(OH)\u003Csub>10\u003C\u002Fsub>·3H\u003Csub>2\u003C\u002Fsub>O",{"id":126,"name":127,"entrytype":9,"csystem":117,"ima_formula":128,"mindat_formula":129,"hmin":52,"hmax":52,"dmeas":130,"dcalc":131,"primary_image_id":11},42746,"Lahnsteinite","Zn\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub> · 3H\u003Csub>2\u003C\u002Fsub>O","Zn\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub>·3H2O","2.98","2.995",{"id":133,"name":134,"entrytype":9,"csystem":41,"ima_formula":135,"mindat_formula":136,"hmin":48,"hmax":48,"dmeas":106,"dcalc":137,"primary_image_id":138},2837,"Namuwite","Zn\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub> · 4H\u003Csub>2\u003C\u002Fsub>O","Zn\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub>·4H\u003Csub>2\u003C\u002Fsub>O","2.81",17007,{"id":140,"name":141,"entrytype":9,"csystem":117,"ima_formula":142,"mindat_formula":143,"hmin":55,"hmax":55,"dmeas":144,"dcalc":145,"primary_image_id":146},31498,"Osakaite","Zn\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub> · 5H\u003Csub>2\u003C\u002Fsub>O","Zn\u003Csub>4\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH)\u003Csub>6\u003C\u002Fsub> ·5H\u003Csub>2\u003C\u002Fsub>O","2.70","2.75",18272,{"id":148,"name":149,"entrytype":9,"csystem":150,"ima_formula":151,"mindat_formula":152,"hmin":153,"hmax":153,"dmeas":154,"dcalc":155,"primary_image_id":156},3358,"Ramsbeckite","Monoclinic","Cu\u003Csub>15\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)\u003Csub>4\u003C\u002Fsub>(OH)\u003Csub>22\u003C\u002Fsub> · 6H\u003Csub>2\u003C\u002Fsub>O","(Cu,Zn)\u003Csub>15\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)\u003Csub>4\u003C\u002Fsub>(OH)\u003Csub>22\u003C\u002Fsub>·6H\u003Csub>2\u003C\u002Fsub>O",3.5,"3.39","3.37",20534,{"id":158,"name":159,"entrytype":9,"csystem":41,"ima_formula":160,"mindat_formula":160,"hmin":11,"hmax":11,"dmeas":11,"dcalc":11,"primary_image_id":161},470605,"Tzeferisite","CaZn\u003Csub>8\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)\u003Csub>2\u003C\u002Fsub>(OH)\u003Csub>12\u003C\u002Fsub>Cl\u003Csub>2\u003C\u002Fsub>(H\u003Csub>2\u003C\u002Fsub>O)\u003Csub>9\u003C\u002Fsub>",24840,[],[],[165],{"id":166,"txt":167,"latitude":168,"longitude":169,"country":170},1747,"Cap Garonne Mine, Le Pradet, Toulon, Var, Provence-Alpes-Côte d'Azur, France",43.0813889,6.0322222,"France",4,[173,176,179,183,188,193,197],{"id":174,"year":33,"html":175,"doi":11},529574,"Jambor, John L., Vanko, David A. (1993) New Mineral Names. \u003Ci>American Mineralogist\u003C\u002Fi>,  78 (11-12) 1314-1319 \u003Ca target='_blank' href='http:\u002F\u002Fwww.minsocam.org\u002Fammin\u002FAM78\u002FAM78_1314.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":177,"year":33,"html":178,"doi":11},16881221,"Sarp, H. (1993) Guarinoite (Zn,Co,Ni)\u003Csub>6\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH,Cl)\u003Csub>10\u003C\u002Fsub>·5H\u003Csub>2\u003C\u002Fsub>O et thérèsemagnanite (Co,Zn,Ni)\u003Csub>6\u003C\u002Fsub>(SO\u003Csub>4\u003C\u002Fsub>)(OH,Cl)\u003Csub>10\u003C\u002Fsub>·8H\u003Csub>2\u003C\u002Fsub>O, deux nouveaux minéraux de la mine de Cap Garonne, Var, France. \u003Ci>Archives des Sciences, Genève\u003C\u002Fi>,  46 (1) 37-44 \u003Ca target='_blank' href='https:\u002F\u002Frruff.info\u002Frruff_1.0\u002Fuploads\u002FASG46_37.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":180,"year":181,"html":182,"doi":11},16967687,2005,"(2005) Thérèsemagnanite. \u003Ci>Handbook of Mineralogy\u003C\u002Fi>. Mineralogical Society of America \u003Ca target='_blank' href='https:\u002F\u002Fwww.handbookofmineralogy.org\u002Fpdfs\u002Ftheresemagnanite.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":184,"year":185,"html":186,"doi":187},244697,2015,"Hålenius, U., Hatert, F., Pasero, M., Mills, S. J. (2015) New minerals and nomenclature modifications approved in 2015, CNMNC Newsletter No 27. \u003Ci>Mineralogical Magazine\u003C\u002Fi>,  79 (5). 1223-1230 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1180\u002Fminmag.2015.079.5.16'>doi:10.1180\u002Fminmag.2015.079.5.16\u003C\u002Fa>","10.1180\u002Fminmag.2015.079.5.16",{"id":189,"year":190,"html":191,"doi":192},398225,2017,"Hazen, Robert M., Hystad, Grethe, Golden, Joshua J., Hummer, Daniel R., Liu, Chao, Downs, Robert T., Morrison, Shaunna M., Ralph, Jolyon, Grew, Edward S. (2017) Cobalt mineral ecology. \u003Ci>American Mineralogist\u003C\u002Fi>,  102 (1) 108-116 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam-2017-5798'>doi:10.2138\u002Fam-2017-5798\u003C\u002Fa>","10.2138\u002Fam-2017-5798",{"id":194,"year":195,"html":196,"doi":11},16131305,2018,"Kasatkin, A.V., Plášil, J., Škoda, R., Belakovskiy, D.I., Marty, J., Meisser, N., Pekov, I.V. (2018) Redefinition of thérèsemagnanite, NaCo4(SO4(OH)6Cl·6H2O: new data and relationship to ‘cobaltogordaite’. Mineralogical Magazine 82(1): 159-170.",{"id":198,"year":199,"html":200,"doi":201},245157,2019,"Mills, Stuart J., Missen, Owen P., Favreau, Georges (2019) The crystal structure of Ni-rich gordaite–thérèsemagnanite from Cap Garonne, France. \u003Ci>Mineralogical Magazine\u003C\u002Fi>,  83 (3) 459-463 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1180\u002Fmgm.2019.6'>doi:10.1180\u002Fmgm.2019.6\u003C\u002Fa>","10.1180\u002Fmgm.2019.6",[203],{"id":204,"source_url":205,"license_code":206,"credit_html":207,"title":208,"description":209,"author":210,"original_width":211,"original_height":212},10553,"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=104292836","CC BY-SA 4.0","David Hospital, via \u003Ca href=\"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=104292836\" rel=\"noopener\">Wikimedia Commons\u003C\u002Fa>","Thérèsemagnanite & Guarinoite.jpg","Deep pink microcrystals of the extremely rare thérèsemagnanite associated to pale pink crystals of guarinoite from the only known locality worldwide for theresemagnanite and one of the two known localities for guarinoite worldwide: Cap Garonne Mine, Le Pradet, Var, Provence-Alpes-Cote d'Azur, France.\n\u003Cp>Both minerals are two of the most sought after species from Cap Garonne. Both species are Co-Zn-Ni sulphates with different ratios of Co-Zn-Ni and described in 1993 . Theresemagnanite has more cobalt, so its color it's deeper pinkish, and it is then possible to differenciate from guarinoite, that is pale pink.\n\u003C\u002Fp>\nEx Vandenbroucke Museum collection from Waregem, Belgium","David Hospital",782,592,[],[215,216,217,218],"Cobaltogordaite","IMA1991-026","Thérèsemagnaniet","Theresmagnanite",[220,224,229,233,237],{"lang":221,"names":222},"ca",[223],"theresemagnanita",{"lang":225,"names":226},"de",[227,228],"IMA 1991-026","Thérèsemagnanit",{"lang":230,"names":231},"eu",[232],"Thérèsemagnanita",{"lang":234,"names":235},"it",[236],"thérèsemagnanite",{"lang":238,"names":239},"zh",[240],"泰里斯马格南石","Q3990997",{"history":11,"applications":11}]