@article{oai:rekihaku.repo.nii.ac.jp:00000958,
 author = {齋藤, 努 and Saito, Tsutomu},
 journal = {国立歴史民俗博物館研究報告, Bulletin of the National Museum of Japanese History},
 month = {Mar},
 note = {application/pdf, 新しく開発された「高周波加熱分離―鉛同位体比測定法」によって，奈良三彩，平安緑釉陶器の鉛釉を対象として鉛同位体比測定を行った。産地，年代を明確におさえることができる窯跡出土資料を中心とした。ただし奈良三彩などについては考察に十分な数の窯跡の資料を得るのが困難であるため，消費地の資料を含めた。その結果，ほとんど全てのデータがきわめて狭い領域に集中する値を示した。これは，山口県美東町の長登銅山跡，平原遺跡から出土した鉛製錬関係資料や銅鉱石の数値とよく一致しており，この地域から一括して原料が供給された可能性が高い。, Lead isotope analysis of ancient Japanese lead glaze, i.e. tricolored glaze in Nara period (Nara sants'ai ) and green glaze in Heian period, was carried out. Most of the samples was collected from ancient kilns which we can certainly estimate the locations and the ages, however, in case of Nara tricolored glaze few number of samples have ever been found and the samples excavated from ruins at which they were used were also analyzed. Lead in the samples was separated by high-frequency heating method. As the result, most of the isotope ratio data except one is centered on almost the same point. They are also the same values as lead ingot, lead smelting slags and copper ores excavated from the ruins of Naganobori copper mine and the Hirabara lead smelting ruins, Yamaguchi Pref. From archaeological study and the lead isotope data this mine was most plausible as the source of the material lead.},
 pages = {199--208},
 title = {三彩・緑釉陶器の鉛同位体比分析（2. 歴史資料産地決定法への適用 / [三彩・緑釉]）},
 volume = {86},
 year = {2001},
 yomi = {サイトウ, ツトム}
}