鉄質イン石中の宇宙線生成極微量カリウム,カルシウムの測定
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A Long lived radio-nuclide <SUP>40</SUP>K and stable nuclides of calcium produced by cosmic ray in iron meteorites were determined by mass spectrometry using surface ionization technique with an electron multiplier. These nuclides were extracted simultaneously in a systematic wet chemical separation scheme with other stable nuclides of titanium, vanadium and chromium and long lived nuclide <SUP>53</SUP>Mn. For the determination of absolute contents of the products, the dilution method was apllied using spikes, <SUP>39</SUP>K and <SUP>42</SUP>Ca. The contamination level of natural potassium and calcium was reduced as low as possible; the lowest, we obtained, was 0.2ppm potassium and 0.4ppm calcium. In such sample, the enrichment of <SUP>42</SUP>Ca, <SUP>43</SUP>Ca, <SUP>44</SUP>Ca and <SUP>46</SUP>Ca due to cosmic-ray products were observed at 70, 200, 20 and 200% respectively. It was not always possible to reach such low contamination level. On the other hand, the most of <SUP>40</SUP>K extracted from iron meteorites was found to be the cosmic-ray products even at a higher contamination level. For the isotope fractionation and the isotope discrimination problem, long lived <SUP>40</SUP>K seems not to be affected seriously because of the very high ratio of cosmic-ray product to natural <SUP>40</SUP>K and of being placed between two stable nuclides of potassium. When we got the lowest contamination, cosmic-ray-produced <SUP>41</SUP>K should be detected at the about 5% enrichment in mass 41 peak. However, we have no mean to correct the isotope fractionation and discrimination of potassium and could not determine the <SUP>41</SUP>K in this work. According to the spallation systematics and also our earlier works, fortunately, <SUP>40</SUP>Ca and <SUP>48</SUP>Ca are produced by negligible amounts by cosmic-ray irradiation. The isotope fractionation and discrimination in the mass spectrometry were corrected by normalizing <SUP>40</SUP>Ca and <SUP>48</SUP>Ca peaks in samples to their reference values which were selected from literatures and our data of reagent calcium. When sample size was very small, mass 42 and 43 peaks were usually disturbed by tenacious hydrocarbon peaks. In order to eliminate such disturbances, the cavity of ion source in mass spectrometer and the filament had to be baked before the measurement in each run. Examples of results are as follows[unit: 10<SUP>13</SUP>atom/g of meteorite]. <SUP>40</SUP>K: Grant A-350, 0.526, Grant Q-260. 0.541, Grant E-240, 0.470, Grant I-110, 0.42, Grant I-55, 0.458, Aroos, 0.715, Treysa, 0.546. <SUP>43</SUP>Ca: Grant A-350, 1.77, Grant Q-260, 1.6, Grant I-110, 1.6, Grant I-55, 1.42, Aroos, 2.29, Treysa, 1.55. A dependency on the depth in the meteorite Grant was found to be about 20%, smoothly decreased from the surface to the center for both <SUP>40</SUP>K and calcium. Our samples were not enough in number to determine the preatomospheric size of the meteorite yet. A fine structure in a cumulative spallation yield curve was examined in the isotopic ratios of cosmic-ray-produced calcium analyzed in a highly enriched sample. The yields of <SUP>42</SUP>Ca and <SUP>44</SUP>Ca were 10±5% higher than an expected yield of <SUP>43</SUP>Ca. When we borrow the data by H. Voshage, the yield of <SUP>41</SUP>K was also found to be apparently lower. Experimental procedures, especially the chemical procedure and the mass spectrometry of very small amount of these elements are described in detail.
- 日本質量分析学会の論文
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