value | technique | year | title_of_literature<MAX120col.> | journal<MAX120col.> | vol | page | name<MAX80col.> |
---|---|---|---|---|---|---|---|
14 | XRF | 1993 | Personal Communication, Far East Geological Institute, Russia | A.S.Zhitkov and A.V.Ignatyev | |||
16 | XRF | 1985.11 | Personal communication, Sheffield Univ., England | R.Kanaris-Sotiriou | |||
15 | XRF | 1985.11 | Personal communication, Sheffield Univ., England | R.Kanaris-Sotiriou | |||
12.0 | XRF | 1985.11 | Personal communication, IFREMER, Centre de Brest, France | J.Etoubleau | |||
14.1 | XRF | 1986.04 | Personal communication, Govern. Chem. Lab., Brisbane, Australia | H.A.Olszowy | |||
16 | XRF | 1986.04 | Personal communication, New Mexico Institute of Mining and Technology | P.R.Kyle | |||
15 | XRF | 1986.06 | Personal communication, University of Lund, Sweden | Z.Solyom | |||
13.7 | XRF | 1986.05 | Personal communication, Geological Survey of Japan | M.Ogasawara | |||
13.7 | XRF | 1987.03 | Trace element analysis of rock samples by x-ray fluorescence spectrometry, using Rh anode tube(in Japanese with English abstract) | Bull. Geol. Surv. Japan | 38 | 57-68 | M.Ogasawara |
25 | XRF | 1988.1 | Elemental concentrations in Japanese silicate rock standards: A comparison with the literature | Geost. Newsletter | 12 | 379-389 | K.W.Sims, E.S.Gladney, C.Lundstrom and N.W.Bower |
15.6 | ICPMS | 1990.04 | Analysis of standard reference materials for Zr, Nb, Hf and Ta by ICP-MS after lithium metaborate fusion and cupferron separation | Geost. Newsletter | 14 | 197-206 | G.E.M.Hall and J.C.Pelchat |
17 | XRF | 1991.05 | Personal communication, Wadia Institute of Himalayan Geology, Dehra, India | N.K.Saini | |||
15.8 | ICPES | 1991.05 | Personal communication, Wadia Institute of Himalayan Geology, Dehra, India | N.K.Saini | |||
16 | EXRF | 1991.06 | Personal communication, U.S. Geological Survey | K.Uto | |||
15.20 | ICPMS | 1992 | Determination of trace and ultra-trace elements in 32 international geostandards by ICP-MS | Jour.Min.Pet.Econ.Geol | 87 | 107-122 | T.Yoshida,S.Yamasaki and A.Tsumura |
13 | XRF | 1992 | Personal Communication, Okayama University, Japan | Y.Orihashi | |||
12.2 | XRF | 1991 | Quantitatie analysis of rock samples by XRF | The Rigaku-Denki.J. | 22 | 28-44 | Goto |
15.7 | ICPMS | 1993.04 | Simultaneous determination of thirty-seven trace elements in twenty-eight international rock standards by ICP-MS | Geost. Newsletter | 17 | 81-97 | CD.Garbe-Schonberg |
13.4 | XRF | 1993.04 | XRF and INAA determinations of major and trace elements in geological survey of Japan igneous and sedimentary rock stadards | Geost. Newsletter | 17 | 127-133 | R.B.Hallett and |
16.2 | XRF | 1992 | Determination of twelve trace elements in twenty-seven and ten major elements in twenty-three geochemical reference samples by X-Ray fluorescence spectrometry | Geost.Newsletter | 16 | 301-309 | S.P.Verma T.Besch |
13.9 | XRF | 1994 | Personal communication, Stanford Univ., USA | J.W.Sparks | |||
15 | XRF | 1993 | Quantitative analysis of the trace elements in silicate rocks by X-ray fluorescence method | Earth Science | T. Okudaira | ||
14 | XRF | 1994 | Major, trace and rare-earth elements in fourteen GSJ reference samples. Determination by X-ray fluorescence spectrometry and inductively coupled plasma optical emission spectrometory | Geostandards Newsletter | 18 | 91-100 | J.C.Germanique |
15 | ICPES | 1994 | Major, trace and rare-earth elements in fourteen GSJ reference samples. Determination by X-ray fluorescence spectrometry and inductively coupled plasma optical emission spectrometory | Geostandards Newsletter | 18 | 91-100 | J.C.Germanique |
14 | XRF | 1994 | Major, trace and rare-earth elements in fourteen GSJ reference samples. Determination by X-ray fluorescence spectrometry and inductively coupled plasma optical emission spectrometory | Geostandards Newsletter | 18 | 91-100 | J.C.Germanique |
15 | ICPES | 1994 | Major, trace and rare-earth elements in fourteen GSJ reference samples. Determination by X-ray fluorescence spectrometry and inductively coupled plasma optical emission spectrometory | Geostandards Newsletter | 18 | 91-100 | J.C.Germanique |
18 | SSMS | 1994 | Trace element analysis of GSJ silicate reference materials:Comparison of SSMS with ICP-MS data and a critical discussion of compiled values | Fresenius.J.Anal.Chem | 350 | 310-318 | K.P.Jochum and G.Jenner |
12 | XRF | 1996 | Major and trace element analysis of fifteen japanese igneous reference rocks by XRFS and INAA | Geostandards Newsletter | 20 | 87-94 | John Stix,Michael P.Gorton,Eric Fontaine |
14 | XRF | 1996 | Personal communication, Institut fur Geowissenschaften,Germany | Frau N.Groschopf | |||
17.3 | XRF | 1992 | Quantitative analysis of Ba,Co,Cr and Vin silicate rocks by X-ray fluorescence method | Contrib.Dept.Geol.Min.,NIigata Univ. | 7 | 111-115 | Y.Kawano,N.Watanabe,K.Yamamoto and K.Shuto |
15 | ICPMS | 1997 | Personal communication,GFZ-Potsdam,Germany | H.G.Plessen and J.Erzinger | |||
15.2 | XRF | 1995 | Analysis of Pressed Pellets of Geological Samples Using Wavelength-Dispersive X-Ray Fluorescence Spectrometry | X-ray Spectrometry | 24 | 123-136 | H.P.Longerich |
18.5 | XRF | 1997 | Personal communication,UNAM,Mexico | Rufino Lozano | |||
16 | XRF | 1998 | Personal communication,GEOMAR,Germany | K.Wolf | |||
16.2 | ICPMS | 1998 | Personal communication,K.Ishida,Kyushyu,Univ,Japan | K.Ishida | |||
14.43 | XRF | 1997 | Major and Trace Element Analyses of Silicate Rocks Using X-ray Fluorescence Spectrometer RIX3000 | The Rigaku-Denki Journal | 28 | T.Takahashi and K.Shuto | |
15 | XRF | 1999 | X-ray fluorescence analysis of major and trace elements in silicate rocks using fused disk samples | J.Fac.Cul.Edu.Saga Univ | 3 | 133-140 | S.Kakubuchi,T.Ishisaka and Y.Kawano |
10 | XRF | 1999 | Personal communication,Institute of Geology,Estonia | T.Kiipli | |||
13.3 | NM | 1999 | Quantiative evaluation of interference of nuclear reaction in INAA and PAA and their application for simultaneous analaysis of rocks and plant samples | Doctor Thesis,Kanazawa Univ.Japan | 1-220 | Y. Miyamoto | |
13 | XRF | 2000 | Personal Communication, Geo-Science Laboratory Inc, Japan | Kato | |||
2 | XRF | 2000 | Personal Communication, Geo-Science Laboratory Inc, Japan | Kato | |||
15.4 | XRF | 1994 | Personal Communication,WSU GeoAnalytical Laboratory, USA | C. Knaack, S. Cornelius and P. Hooper | |||
14.88 | ICPMS | 1994 | Personal Communication,WSU GeoAnalytical Laboratory, USA | C. Knaack, S. Cornelius and P. Hooper | |||
15.4 | XRF | 2000 | Personarl Communication,Washington State University | D. Johnson | |||
14.88 | ICPMS | 2000 | Personarl Communication,Washington State University | D. Johnson | |||
22 | OES | 1999 | Personarl Communication, Institute of Geology, Estonia | T. Kiipli | |||
15 | XRF | 1999 | Development of a fused glass disc XRF facility and comparison with the pressed powder pellet technique at instituto de geociencias, Sao Paulo University | Department of Mineralogy and Geotectonic, Universidade de Sao Paulo, University of Melbourne, school of Earth Sciences, Department of Chemical | PAULO ERNESTO MORI, SHANE REEVES. CIRO TEIXIRA CORREIA AND MAUNU HAUKKA | ||
11.3 | XRF | 2000 | Quantitave chemical analyses of rocks by X-ray fluorescence spectrometry using a mixed alkali flux | Department of Earth Science, Faculty of Science | K Umemoto, T Imaoka, T Yamasaki and M Owada | ||
14 | XRF | 1995 | Major and trace element analyses of rock samples by X-ray fluorescence spectrometry using Rh anode tube | Department of Geology, Faculty of Educaton, Iwate University and Institute of Mineralogy, Petrology, and Economic Geology, Tokoku University | 55 | 89-110 | N. Tsuchiya, T. Hasenaka |
13.1 | EXRF | 2002 | Personal Communication, Southern Connecticut State Univ., USA | T. Fleming |