Bibliography section

Activation analysis

• Abe, S. (Yamagata Univ., Japan): Photoactivation of alkaline earth metals and its application to the determination of strontium in calcium and barium.Yamagata Daigaku Kiyo, Shizenkagaku (Bull. Yamagata Univ. Nat. Sci.) 7 (1968) 35–42 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 11454.

  CAS  Google Scholar 

• Akaboshi, M., Maeda, T., Noda, M., Waki, A. (Japan Kyoto Univ. Res. Reactor Inst.): Determination of trace elements in DNase I by the activation analysis. NSJ-Tr 141, Dec. 1968, 7 p.

• Albisu, F., Martin, A. (Escuela Tecnica Superior de Ingenieros Industriales, Bilbao, Spain): Radioisotopes in chemistry: their use with and around the Arbi reactor.Symposium on Application of Radioisotopes, Madrid, Spain, June 19–21, 1967. CONF-670649-1, 5 p. (in Spanish), see alsoNucl. Sci. Abstr. 23 (1969) No. 42113.

• Alian, A., Hallaba, E., Etman, M., Bashat, H. (Atomic Energy Establishment, Cairo, Egypt.): Radioactivation and tracer studies on cements used in petroleum production operations.Microchem. J. 13 (1968) 690–8, see alsoNucl. Sci. Abstr. 23 (1969) No. 17379.

  Article  CAS  Google Scholar 

• Allen, H. E., Hahn, R. B.: Determination of phosphate in natural waters by activation analysis of tungstophosphoric acid.Environ. Sci. Technol. 3 (1969) 844–8.

  Article  CAS  Google Scholar 

• Anders, O. U. (Dow Chemical Co., Midland, Mich.): Instrumental neutron activation analysis using TRIGA reactor high-resolution gamma spectrometer and computer.Anal. Chem. 41 (1969) 428–37, see alsoNucl. Sci. Abstr. 23 (1969) No. 15827.

  Article  CAS  Google Scholar 

• Anon. (Office of Atomic Energy for Peace, Bangkok, Thailand): Neutron activation analysis of gold in teak (tectona grandis). THAI-AEC-17, 1968, 4 p., see alsoNucl. Sci. Abstr. 23 (1968) No. 28745.

• Ballaux, C., Dams, R., Hoste, J. (Institute for Nuclear Sciences, Ghent Univ., Ghent, Belgium): Neutron activation analysis of high-purity selenium. Part 5. Simultaneous determination of metallic impurities.Anal. Chim. Acta 47 (1969) 397–405.

  Article  CAS  Google Scholar 

• Basdekas, D. L. (United States Atomic Energy Commission): Method for measuring fissionable material content of fuels. US Patent 3 436 538 (1969), see alsoNucl. Sci. Abstr. 23 (1969) No. 28766.

• Beer, C. E., Hendrickson, R. A.: Activation analysis: A new technique for soil movement studies.Agric. Engng 50 (1969) 144–5.

  Google Scholar 

• Bethard, W. F. (Gulf General Atomic, Inc., San Diego, Calif.): Trace elements.Conf. on Radioisotopes in Medicine: In Vitro Studies, Oak Ridge, Tenn., Nov. 13–16, 1967. AEC Symposium Series 13.

• Boddy, K., Alexander, W. D. (Scottish Research Reactor Centre; Western Infirmary, Glasgow, Scotland): Partial body in vivo activation analysis using epithermal and fast neutrons.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–5, 1968. Abstr. of papers, 39 p. (Td-4).

• Boudin, A., Dehon, M. (Bruxelles, Belgique, Univ. Libre, Service de Géologie et Géochimie Nucléaires): Methods of quantitative analysis of Lu in minerals.Geochim. Cosmochim. Acta 33 (1969) 142–7 (in French).

  Article  CAS  Google Scholar 

• Brunelle, R. L., Hoffman, C. M., Snow, K. B., Pro, M. J.: Neutron activation and atomic absorption analyses of chemical elements in soil.J. Ass. Offic. Anal. Chem. 52 (1969) 911–4.

  CAS  Google Scholar 

• Cardarelli, J. A., Podolsky, S., Burrows, B. A. (Veterans Administration Hospital, Boston, Mass.): Analysis of stable iodinated insulin using neutron activation techniques.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1968. Abstr. of papers, 41 p (Td-8).

• Carpenter, R.: Marine geochemistry of fluorine.Diss Univ. of California, San Diego, California, 1968, 149 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 31422.

• Chamnirokasarnt, D. (Office Atomic Energy for Peace, Bangkok, Thailand): Determination of manganese, copper, zinc, iron, and molybdenum in animal blood samples by neutron activation analysis. THAI-AEC-22, 1969, 5 p., see alsoNucl Sci. Abstr. 23 (1969) No. 28746.

• Chaudhri, M. A., Batra, G. J. (M. R. C. Cyclotron Unit, Hammersmith Hospital, London, England): Quantitative estimation of Mg and Mn present in a dosimetric LiF (TLD-100) sample by fast neutron activation analysis.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1969. Abstr. of papers, 38 p. (Td-1).

• Chaudhri, M. A., Batra, G. J. (M. R. C. Cyclotron Unit, Hammersmith Hospital, London, England): A theory for charged particle activation analysis.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1969. Abstr. of papers, 42 p. (Td-10).

• Coleman, R. F., Weston, N. T. (United Kingdom Atomic Energy Authority, Aldermaston, England): A case concerning neutron activation analysis of glass.J. Forensic Sci. Soc. 8 (1968) 32–3, see alsoNucl. Sci. Abstr. 23 (1969) No. 19675.

  CAS  Google Scholar 

• Cooper, R. D., Linekin, D. M., Brownell, G. L. (Army Natick Labs., Mass., Massachusetts Inst. of Tech., Cambridge, Mass.; General Hospital, Boston, Mass.): Analysis of biologic tissue without chemical separation.Conf. on Radioisotopes in Medicine: In Vitro Studies, Oak Ridge, Tenn., Nov. 13–16, 1967. AEC. Symposium Series 13.Hayes, R. L., Goswitz, F. A., Murphy, B. E. (eds)Oak Ridge, Tenn.: Division of Technical Information Extension (AEC), June 1968, 471-90, p., see alsoNucl. Sci. Abstr. 23 (1969) Nos 11943 and 11448.

• Csajka, M., Lavrukhina, A. K., Szabó, E. (Central Research Institute for Physics, Budapest, Hungary): Determination of macrocomponents of meteorite by nondestructive activation analysis.Magy. Tud. Akad. Közp. Fiz. Kut. Int. Közlemény. 17 (1969) 25–37 (in Hungarian).

  CAS  Google Scholar 

• Dams, R., Adams, F. (Univ. of Ghent, Belgium):Gamma-ray energies of radionuclides formed by neutron capture determined by Ge(Li) spectrometry.Radiochim. Acta 10 (1968) 1–11, see alsoNucl. Sci. Abstr. 23 (1969) No. 10993.

  CAS  Google Scholar 

• Debrun, J. L., Albert, Ph.: Dosage de traces de soufre par activation dans les particules chargées.Bull. Soc. Chim. France, No. 3 (1969) 1017–20.

  Google Scholar 

• Dijkstra, G.: Instrumental methods in the chemical analysis of minerals.Geol. en Mijnbouw 47 (1968) No. 6, 379–93, see alsoRef. Zh. Khim. 14 (1969) No. G 104.

  CAS  Google Scholar 

• Doty, W. H., Wood, D. E., Schneider, E. L.: Neutron activation analysis of nitrogen in feedstuffs.J. Ass. Offic. Anal. Chem. 52 (1969) 953–6.

  CAS  Google Scholar 

• Drašković, R. J., Kukoć, A., Drašković, R. S. (Inst. des Sciences Nucléaires “Boris Kidrić”, Vinca, Laboratoire de Chimie de Haute Activité): Détermination des impuretés dans GeO₂, de production yougoslave et BDH, par la méthode d’analyse par activation.Radiochim. Acta 12 (1969) 69–72.

  Google Scholar 

• Fisher, D. E. (Institute of Marine Sciences, Univ. of Miami, Miami, Fla.): Fission track ages of deep see glasses.Nature 221 (1969) 549–50.

  Article  CAS  Google Scholar 

• Gatz, D. F., Dingle, A. N., Winchester, J. W. (Univ. of Michigan, Ann Arbor, Mich.): Detection of indium as an atmospheric tracer by neutron activation.J. Appl. Meteorol. 8 (1969) 229–35, see alsoNucl. Sci. Abstr. 23 (1969) No. 26371.

  Article  CAS  Google Scholar 

• Geisman, J. R., Carey, W. E., Gould, W. A., Alban, E. K. Distribution of arsenic residues by activation analysis.J. Food Sci. 34 (1969) 295–8.

  Article  CAS  Google Scholar 

• Goode, G. C., Baker, C. W., Brooke, N. M. (Atomic Weapons Research Establishment, Aldermaston, Berkshire, England): An automated solvent-extraction technique for radiochemical group separations: application to the analysis of glass fragments by thermal-neutron activation.Second Conf. of the Society for Anal. Chemistry, Nottingham, July 15–19, 1968.Analyst 94 (1969) 728–36.

  Article  CAS  Google Scholar 

• Gordus, A. A. (Univ. of Michigan, Ann Arbor, Mich.): Neutron activation analysis of almost any old thing.Chemistry 41 (1968) 8–15, see alsoNucl. Sci. Abstr. 23 (1969) No. 28747.

  CAS  Google Scholar 

• Guinn, V. P. (General Dynamics Corp., General Atomic Div., San Diego, Calif.): Availability and present status of activation analysis.Conf. on Radioisotopes in Medicine: In Vitro Studies, Oak Ridge, Tenn., Nov. 13–16, 1967. AEC Symposium Series 13.Hayes, R. L., Goswitz, F. A. Murphy, B. E. (eds)Oak Ridge, Tenn.: Division of Technical Information Extension (AEC), June 1968, 533–43 p., see alsoNucl. Sci. Abstr. 23 (1969) Nos 11943 and 11450.

• Hamaguchi, H., Onuma, N., Hirao, Y., Yokoyama, H., Bando, S., Furukawa, M. (Tokyo Univ., Tokyo, Japan): The abundances of arsenic, tin, and antimony in chondritic meteorites.Geochim. Cosmochim. Acta 33 (1969) 507–18, see alsoNucl. Sci. Abstr. 23 (1969) No. 21673.

  Article  CAS  Google Scholar 

• Harbottle, G. (Brookhaven National Lab., Upton, N. Y.): Neutron activation analysis of potsherds from Knossos and Mycenae. BNL-13740, 1968, 24 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 33159.

• Hayes, R. L., Goswitz, F. A., Murphy, B. E. (Eds)Oak Ridge, Tenn.: Division of Technical Information Extension (AEC), June 1968, 515–22 p., see alsoNucl. Sci. Abstr. 23 (1969) Nos 11943 and 11965.

• Henry, C. N., Menlove, H. O., Augustson, R. H. (Los Alamos Scientific Lab., N. Mex.): Delayed neutron kinetic response methods for non-destructive assay of reactor fuel materials.Intern. Conf. on the Constructive Uses of Atomic Energy, Washington, D.C., Nov. 10–15, 1968. LA-DC-9758, 1968, 4 p., CONF-681101-21, see alsoNucl. Sci. Abstr. 23 (1969) No. 24101.

• Herr, W., Herpers, U., Hess, B. (Univ. Köln, Germany): Hf determination in a zirconium matrix by life time measurements of the 15 ns¹⁸¹Ta excited state.Radiochim. Acta 11 (1969) 61–2, see alsoNucl. Sci. Abstr. 23 (1969) No. 21674.

  CAS  Google Scholar 

• Heslop, R. B., Tay, S. K. (Chemistry Department, The University of Manchester, Institute of Science and Technology, Manchester, Great Britain): The determination of sulphur in fluorocarbon polymers by neutron activation.Anal. Chim. Acta 47 (1969) 183–8.

  Article  CAS  Google Scholar 

• Higuchi, H., Tomura, K., Takahashi, H., Onuma, N., Hamaguchi, H. (The Institute for Atomic Energy, Rikkyo, Yokosuka, Japan. Department of Chemistry, Faculty of Science, University of Tokyo, Hongo, Tokyo, Japan): Simultaneous determination of strontium and barium by neutron activation analysis with a Ge(Li) detector.Anal. Chim. Acta 44 (1969) 431–6, see alsoNucl. Sci. Abstr. 23 (1969) No. 17384.

  Article  CAS  Google Scholar 

• Iddings, F. A.(Louisiana State Univ., Baton Rouge, La.): Nuclear methods in air and water pollution analysis.Environ. Sci. Technol. 3 (1969) 132–40, see alsoNucl. Sci. Abstr. 23 (1969) No. 15781.

  Article  CAS  Google Scholar 

• Ikeda, N., Kimura, K., Hasebe, N., Shoji, H.(Department of Chemistry, Tokyo Kyoiku Univ., Otsuka, Tokyo, Japan): A new possibility for the method of activation analysis of uranium.Radiochim. Acta 12 (1969) 72–5.

  CAS  Google Scholar 

• Ishii, D., Jinno, K.(Nagaya Univ., Japan): Activation analysis of nitrogen with 14-MeV neutrons using aluminium as internal standard.Kogyo Kagaku Zasshi 72 (1969) 656–60 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 31320.

  CAS  Google Scholar 

• Johnsen, O., Steinnes, E.(Institutt for Atomenergi, Isotope Laboratories, Kjeller, Norway): A simple neutron activation method for mercury in biological material.Intern. J. Appl. Radiation Isotopes 20 (1969) 751–5.

  Article  Google Scholar 

• Johansson, A., Larsson, B., Tibell, G., Ehrenberg, L.(Gustaf Werner Inst., Uppsala, Sweden): Possibilities of nitrogen determination in seeds by direct nuclear reaction.IAEA Panel Meeting on New Approaches to Breeding for Improved Plant Protein, Roestanga, Sweden, June 17–21, 1968. Panel Proceedings Series, Vienna: IAEA 1969, 169–71 p. STI/PUB-212, CONF-680655, see alsoNucl. Sci. Abstr. 23 (1969) Nos 31686 and 31306.

• Karttunen, E., Gardner, D. G.(Department of Radiochemistry, University of Helsinki, Helsinki, Finland; Lawrence Radiation Laboratory, University of California, Livermore, Calif.): A simplified precision system for oxygen analysis by fast neutron activation.Intern. J. Appl. Radiation Isotopes 20 (1969) 801–5.

  Article  CAS  Google Scholar 

• Keller, K. A., Münzel, H.(Institut für Radiochemie, Kernforschungszentrum Karlsruhe, Germany): The activation analysis of oxygen with high-energetic neutrons.Radiochim. Acta 12 (1969) 51–2.

  CAS  Google Scholar 

• Keller, O. L., Ferguson, D. E., Nichols, J. P.(Oak Ridge National Lab., Tenn.): Prospects of transuranium isotopes as neutron sources.Conf. on Radioisotopes in Medicine: In Vitro Studies, Oak Ridge, Tenn., Nov. 13–16, 1967. AEC Symposium Series 13.Hayes, R. L., Goswitz, F. A., Murphy, B. E. (eds)Oak Ridge, Tenn.: Division of Technical Information Extension (AEC), June 1968, 545–58 p., see alsoNucl. Sci. Abstr. 23 (1969) Nos 11943 and 13178.

• Kenna, B. T., Harrison, P. E.(Analytical Methods Division 5421, Sandia Laboratories, Albuquerque, N. M.): Neutron activation study of small particle ablation.Intern. J. Appl. Radiation Isotopes 20 (1969) 777–89.

  Article  CAS  Google Scholar 

• Kosta, L., Byrne, A. R.(Faculty of Natural Sciences, University of Ljubljana and Nuclear Institute “Jozef Stefan”, Ljubljana, Yugoslavia): Activation analysis of mercury in biological samples at nanogram level.Talanta 16 (1969) 1297–303.

  Article  CAS  Google Scholar 

• Kurosawa, R.(Waseda Univ., Tokyo, Japan): Neutron activation analysis of vanadium.Waseda Daigaku Rikogaku Kenkyusho Hokoku (Bull. Sci. Eng. Res. Lab., Waseda Univ.) No. 41 (1968) 1–10 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 11458.

  Google Scholar 

• Lambert, J. P. F., Levander, O., Argsett, L., Simpson, R. E.: Neutron activation analysis of selenium in biological samples.J. Ass. Offic. Anal. Chem. 52 (1969) 915–7.

  CAS  Google Scholar 

• Lange, P. W. de, Wet, W. J. de, Venter, J. H.(Pelindaba, Pretoria, S. Africa, Atomic Energy Board): Critical evaluation of spiking of low-grade ore samples in activation analysis of gold and uranium.Talanta 15 (1968) 1488–91.

  Article  Google Scholar 

• Lee, B. K.: Neutron activation analysis applied to arsenic determination.Diss. Iowa State Univ., Ames, Iowa, 1968, 146 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 28769.

• Lenihan, J. M. A.(Department of Clinical Physics and Bio-Engineering, Western Regional Hospital Board, National Health Service, Glasgow, Scotland): Activation analysis in forensic science.Conf. on Radio-isotopes in Medicine: In vitro Studies, Oak Ridge, Tenn., Nov. 13–16, 1967. AEC Symposium Series 13.Hayes, R. L., Goswitz, F. A., Murphy, B. E. (eds)Oak. Ridge, Tenn.: Division of Technical Information Extension (AEC), June 1968, 523–31 p., see alsoNucl. Sci. Abstr. 23 (1969) Nos 11943 and 11449.

• Lenihan, J. M. A.(Department of Clinical Physics and Bio-Engineering, Western Regional Hospital Board, Glasgow, Scotland): Activation analysis in vivo—problems and pitfalls.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1969. Abstr. of papers, 40 p. (Td-5).

• Lesbats, A.(C.N.R.S. Centre d’Etudes de Chimie Métallurgique): Systematic analysis of high-purity manganese.Ann. Chim. (Paris) 4 (1969) 29–40 (in French).

  CAS  Google Scholar 

• Levri, E. A., Runyan, T. E., Bass, B. G., Mahin, D. T.(Division of Nuclear Medicine, Walter Reed Army Institute of Research; Department of Ophthalmology, Walter Reed General Hospital, Washington, D.C., USA): Diagnostic applications of neutron activation analysis in medicine.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1969. Abstr. of papers, 38 p. (Td-2).

• Lightowlers, E. C.: Chemical impurity measurements on diamond by activation analysis.Proc. Science and Technology of Industrial Diamonds. International Industrial Diamond Conference. Oxford, 1966. Sept. 19–22, London, 1967, 27–39 p.

• Lisovskii, I. P., Smakhtin, L. A.: Determination of oxygen in polyethylene by fast neutron activation.Zh. Analit. Khim. 24 (1969) 749–52.

  CAS  Google Scholar 

• Lowman, J. T., Heagan, B., Krivit, W.(Hospital of the Minnesota Univ., Minneapolis, Minn.): Stable isotopes as biological tracers.Conf. on Radioisotopes in Medicine: In Vitro Studies, Oak Ridge, Tenn., Nov. 13–16, 1967. AEC Symposium Series 13.Hayes, R. L., Goswitz, F. A., Murphy, B. E. (eds)Oak Ridge, Tenn.: Division of Technical Information Extension (AEC), June 1968, 501–14 p., see alsoNucl. Sci. Abstr. 23 (1969) Nos 11943 and 11964.

• Lutz, G. J.(National Bureau of Standards, Washington, D.C.): Calculation of sensitivities in photon activation analysis.Anal. Chem. 41 (1969) 424–7, see alsoNucl. Sci. Abstr. 23 (1969) No. 15826.

  Article  CAS  Google Scholar 

• Lyon, W. S.(Oak Ridge National Lab., Tenn.): Basic concepts of activation analysis.Conf. on Radioisotopes in Medicine: In Vitro Studies, Oak Ridge, Tenn., Nov. 13–16, 1967. AEC Symposium Series 13.Hayes, R. L., Goswitz, F. A., Murphy, B. E. (eds)Oak Ridge, Tenn.: Division of Technical Information Extension (AEC), June 1968, 439–54 p., see alsoNucl. Sci. Abstr. 23 (1969) Nos 11943 and 11446.

• McAndrew, R. G., Smathers, J. B., Wainerdi, R. E., Harrison, G. M., Doggett, R.(Texas A and M University, College Station, Texas; Baylor University, School of Medicine, Houston, Texas): Comparison of perspiration electrolytes of cystic fibrosis and normal subjects using neutron activation analysis.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug 11–15, 1969. Abstr. of papers, 41 p. (Td-7).

• Maletskos, C. J., Tang, C. W.(New England Deaconess Hospital; Harvard Medical School, Boston, Mass.): Multi-element trace analysis of human tissues by neutron activation after removal of²⁴Na and⁴²K.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1969. Abstr. of papers, 39 p. (Td-3).

• Mark, H. B., Eisner, U., Rottschafer, J. M., Berlandi, F. J., Mattson, J. S.(Univ. of Michigan, Ann Arbor. Mich.): Application of semipermeable ion exchange membranes to in situ determination of trace metal ions in aqueous systems by electrochemical and neutron activation techniques. Critical evaluation of techniques.Environ. Sci. Technol. 3 (1969) 165–8, see alsoNucl. Sci. Abstr. 23 (1969) No. 15819.

  Article  CAS  Google Scholar 

• Martin, A., Albisu, F. (Escuela Tecnica Superior de Ingenieros Industriales, Bilbao, Spain): Determination of rhenium by neutron activation in sedimentary rocks.Symposium on Application of Radioisotopes, Madrid, Spain, June 19–21, 1967. CONF-670649-30, 9 p. (in Spanish), see alsoNucl. Sci. Abstr. 23 (1969) No. 21665.

• Millington, R. A., Taylor, W. H., Webber, P. J. (Atomic Energy Establishment Winfrith, England): Measurement of depletion of nominally 0.04 per cent depleted uranium metal foil by two different methods AEEW-M-807, Feb. 1968, 9 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 26183.

• Moauro, A., Capannesi, G. (Comitato Nazionale per l’Energia Nucleare, Rome, Italy): Quantitative non-destructive determination by means of activation with thermal neutrons of manganese, of potassium, and of sodium in genotypes of Pisum and their preliminary statistical differentiation on the basis of results obtained. RT/CHI-(69)1, 1969, 42 p. (in Italian), see alsoNucl. Sci. Abstr. 23 (1969) No. 26195.

• Molokhia, M., Portnoy, B. (Manchester and Salford Hospital for Skin Diseases, England): Neutron activation analysis of trace elements in skin. Part 1. Copper in normal skin.Brit. J. Dermatol. 81 (1969) 110–4, see alsoNucl. Sci. Abstr. 23 (1969) No. 33163.

  Article  CAS  Google Scholar 

• Morgan, D. J., Black, A., Mitchell, G. R. (Health Physics, and Medical Division, Atomic Energy Research Establishment, Harwell, Berkshire, England): The determination of inorganic iodide in urine by neutron-activation analysis.Analyst 94 (1969) 740–3.

  Article  CAS  Google Scholar 

• Morgan, J. W., Lovering, J. F., Ford, R. J.: Rhenium and nonradiogenic osmium in Australian molybdenites and other sulfide minerals by neutron activation analysis.J. Geol. Soc. Australia 15 (1968) 189–94, see alsoNucl. Sci. Abstr. 23 (1969) No. 31322.

  CAS  Google Scholar 

• Motojima, K., Nakayama, R. (Japan Atomic Energy Research Inst., Tokyo, Japan): Activation analysis of high-purity silicon for semiconductor use.Bunseki Kiki (Analysis and Instrument) 6 (1968) 567–72 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 11455.

  Google Scholar 

• Muto, H., Goshi, Y. (Tokyo Shibaura Electric Co., Tokyo, Japan): Determination of oxygen in high melting point materials by neutron activation.Bunseki Kagaku 18 (1969) 600–3 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 28764.

  CAS  Google Scholar 

• Neirincky, R., Adams, F., Hoste, J. (Institute for Nuclear Sciences, Ghent Univ., Ghent, Belgium): Determination of impurities in titanium and titanium dioxide by neutron activation analysis. Part 3. Determination of vanadium and aluminium in titanium and titania by preseparation.Anal. Chim. Acta 47 (1969) 173–82.

  Article  Google Scholar 

• Neuburger, M., Fourcy, A. (Laboratoire de Biologie Végétale, Centre d’Etudes Nucléaires de Grenoble, Commissariat à l’Energie Atomique, Grenoble, France): Etudé de la répartition du ruthénium dans un bassin écologique au moyen l’analyse par radioactivation neutronique.Intern. J. Appl. Radiation Isotopes 20 (1969) 641–51.

  Article  CAS  Google Scholar 

• Nishimura, K., Kobayashi, G.: Determination of mercury in gas by radioactivation analysis.Soda To Enso (Soda and Chlorine) 19 (1968) 377–84 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 15821.

  CAS  Google Scholar 

• Niwase, T., Koxuka, H. (National Research Inst. of Police Science, Tokyo, Japan): Neutron activation analysis of upper layer paint chips of car. Its advantage over emission and infrared spectrophotometry.Kagaku Keisatsu Kenkyusho, Hokoku 21 (1968) 275–81 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 33165.

  Google Scholar 

• Oka, Y., Kato, T., Konami, Y.: Activation analysis of internal standard materials. Activation analysis of arsenic using selenium as internal reference element.Bunseki Kagaku 18 (1969) 971–5.

  CAS  Google Scholar 

• Parker, R. B., Brunfelt, A. O. (Univ. of Wyoming, Laramie, Wyo.): Precision and accuracy of sodium determination by neutron activation.Chem. Geol. 3 (1968) 213–7, see alsoNucl. Sci. Abstr. 23 (1969) No. 17371.

  Article  CAS  Google Scholar 

• Parkin, D. W., Tilles, D. (Univ. of Calif., San Diego, Calif.): Influx measurements of extraterrestrial material. Trace elements by neutron activation.Science 159 (1968) 942.

  Google Scholar 

• Piper, D. Z., Goles, G. G.(Scripps Institution of Oceanography, University of California, San Diego, La Jolla, Calif.): Determination of trace elements in sea-water by neutron activation analysis.Anal. Chim. Acta 47 (1969) 560–3.

  Article  CAS  Google Scholar 

• Pribilla, O.(Univ. Kiel, Inst. für gerichtliche und soziale Medizin, Kiel, Germany): Forensic medicine and radioisotopes.Atompraxis 14 (1968) 187–193 (in German).

  CAS  Google Scholar 

• Price, P. B., Bird, J. R.(Univ. of New South Wales, Kensington, England): Proton microanalysis.Nucl. Instr. Methods 69 (1969) 277–81, see alsoNucl. Sci. Abstr. 23 (1969) No. 21657.

  Article  CAS  Google Scholar 

• Rausch, H., Salamon, A.(Budapest, Hungarian Acad. Sci., Res. Inst. for Telecommunication; Res. Inst. for Technical Physics): Activation analysis for selenium and tellurium trace impurities in gallium, arsenic and gallium arsenide.Talanta 15 (1968) 975–78.

  Article  CAS  Google Scholar 

• Rhodes, B. A.: Isotopic equilibrium studies of iodine metabolism with emphasis on the circulating iodotyrosines.Diss. Johns Hopkins Univ., Baltimore, 1968, 206 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 24123.

• Rhodes, J. R., Berry, P. F., Sieberg, R. D.(Texas Nuclear Corp., Austin, Tex.): Nuclear techniques in on-stream analysis of ores and coal ORO-2980-18, Sept. 26, 1968, 90 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 11451.

• Rhodes, J. R.(Texas Nuclear Corp., Austin, Tex.): Application of neutron activation to on-stream analysis.Isotopes Radiation Technol. 6 (1969) 359–68, see alsoNucl. Sci. Abstr. 23 (1969) No. 28761.

  CAS  Google Scholar 

• Richardson, A. E., Harrison, A.(Biological-Chemical-Metallurgical Branch, Department of the Army, White Sands Missile Range, N. M.): Determination of aluminium and chlorine in composite propellants by non-destructive activation analysis using a mixture of 14.5 MeV and slow neutrons.Anal. Chem. 41 (1969) 1396–9.

  Article  CAS  Google Scholar 

• Rivière, R., Comar, D., Kellersohn, C., Orr, J. S., Gillespie, F. C., Lenihan, J. M. A.(Service Hospitalier Frédéric Joliot, Orsay, France): Estimation of thyroid iodine content by the occupancy principle.Lancet 1969—I, 389–90 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 33166.

  Google Scholar 

• Sattarov, M. G., Talanin, Y. N., Inoyatov, N. S., Turdalieva, T. E.: Rapid method for the determination of chromium and aluminium in catalysts.Uzb. Khim. Zh. No. 1 (1969) 21–3 (in Russian), see alsoRef. Zh. Khim. 14 (1969) No. G 132

  Google Scholar 

• Schweikert, E. A.(College Station, Texas, Texas A and M Univ., Activation Res. Labor.): On the possibility of using an electromagnetic radioisotope separator in conjunction with charged-particle and photon-activation analysis.Talanta 15 (1968) 883–5.

  Article  CAS  Google Scholar 

• Shinbori, Y., Tamachi, T.(Musashi Inst. of Tech., Kawasaki, Japan): Radioactivation analysis of trace elements in refined soybean oils. Part 2. Determination of copper and zinc.Yukagaku (J. Japan Oil Chem. Soc.) 17 (1968) 606–10 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 11460.

  CAS  Google Scholar 

• Shinbori, Y., Kuwahara, H.(Musashi Inst. of Tech., Kawasaki, Japan): Radioactivation analysis of trace arsenic in refined soybean oils, sunflower oils, and rape seed oils.Yukagaku (J. Japan Oil Chem. Soc.) 18 (1969) 147–8 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 24122.

  CAS  Google Scholar 

• Siller, V., Kasparek, K.(Institut für Medizin, KFA Jülich, Germany): Gamma-Spektren der im Organismus vorkommenden Elemente nach Aktivierung mit thermischen (Reaktor)-Neutronen, aufgenommen nach konstanten Abklingzeiten. Jül-559-ME, 1968, 195 p.

• Skinner, W. A., Leaffer, M. A., Parkhurst, R. M.(Menlo Park, Standford Res. Inst., Dep. of Pharmaceutical Chem.): Investigation of the use of derivative neutron activation analysis for drug assay.J. Pharm. Sci. 57 (1968) 338–40.

  CAS  Google Scholar 

• Smallwood, R. A., Williams, H. A., Rosenoer, V. M., Sherlock, S.(Royal Free Hospital, London, England): Liver-copper levels in liver disease: studies using neutron activation analysis.Lancet 1968—II, 1310–3 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 16346.

• Sparks, R. J., McCallum, G. J.: Determination of trace elements by activation analysis with charged particles.New Zealand J. Sci. 12 (1969) 470–5.

  CAS  Google Scholar 

• Steinnes, E., Brune, D.(Institutt for Atomenergi, Isotope Laboratories, Kjeller, Norway; AB Atomenergi, Studsvik, Nyköping, Sweden): Determination of uranium in rocks by instrumental activation-analysis using epithermal neutrons.Talanta 16 (1969) 1326–9.

  Article  CAS  Google Scholar 

• Steinnes, E.(Institutt for Atomenergi, Isotope Laboratories, Kjeller, Norway): Determination of samarium in rocks by epithermal neutron-activation analysis.Z. Anal. Chem. 247 (1969) 23–7.

  Article  CAS  Google Scholar 

• Steinnes, E.(Institutt for Atomenergi, Kjeller, Norway): Rapid determination of aluminium in rocks by reactor neutron activation analysis. KR—131, Jan. 1969, 9 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 33160.

• Sterliński, S.(Department of Analytical Chemistry, Institute of Nuclear Research, Warsaw-Żerań, Poland): The lower limit of detection for very short-lived radioisotopes used in activation analysis.Nucl. Instr. Methods 68 (1969) 341–3, see alsoNucl. Sci. Abstr. 23 (1969) No. 19979.

  Article  Google Scholar 

• Strain, W. H., Rob, C. G., Pories, W. J., Childers, R. C., Thompson, M. F., Hennessen, J. A., Graber, F. M.(Univ. of Rochester, N. Y.: Wright—Patterson AFB, Ohio; Gulf General Atomic, San Diego, Calif.): Activation analysis of normal and atherosclerotic aortas.Appl. Spectrosc. 23 (1969) 121–4, see alsoNucl. Sci. Abstr. 23 (1969) No. 21672.

  Article  CAS  Google Scholar 

• Suttle, A. D., O’Brien, B. C., Mueller, D. W.(Department of Chemistry, Texas A and M Univ., College Station, Tex.): Neutron activation analysis of uranium in geological material by measuring tellurium-132.Anal. Chem. 41 (1969) 1265–9.

  Article  CAS  Google Scholar 

• Tang, C. W., Tomlinson, R. H.(McMaster Univ., Hamilton, Ontario, Canada): Potential applications of activation analysis in clinical medicine.Conf. on Radioisotopes in Medicine: In Vitro Studies, Oak Ridge, Tenn., Nov. 13–16, 1967. AEC. Symposium Series 13.Hayes, R. L., Goswitz, F. A., Murphy, B. E. (eds)Oak Ridge, Tenn.: Division of Technical Information Extension (AEC), June 1968. 491–9, see alsoNucl. Sci. Abstr. 23 (1969) Nos 11943 and 11963.

• Thomas, J., Kristensen, L. V.(Danmarks Tekniske Hoejskole, Lyngby, Denmark): Arsine determination in biological material by activation analysis.Ugeskrift Laeger 129 (1967) 553–5 (in Danish), see alsoNucl. Sci. Abstr. 23 (1969) No. 28756.

  CAS  Google Scholar 

• Travesi, A.(Junta de Energia Nuclear, Madrid, Spain): Recent applications of activation analysis in the Junta de Energia Nuclear.Symposium on Application of Radioisotopes, Madrid, Spain, June 19–21, 1967. CONF-670649-38, 1967, 19 p. (in Spanish), see alsoNucl. Sci. Abstr. 23 (1969) No. 21666.

• Turkstra, J., Wet, W. J. de(Pelindaba, Nuclear Res. Centre, Chemical Div.): The determination of low²³⁵U/²³⁸U ratios by activation analysis utilizing high-resolution gamma-spectrometry.J. South African Chem. Inst. 22 (1969) 1–11.

  CAS  Google Scholar 

• Turkstra, J., Wet, W. J. De(Pretoria, Atomic Energy Board, Chem. Div.): The Determination of Hf/Zr ratio in various South African zircons by means of high-resolution gamma-spectrometry.J. South African Chem. Inst. 22 (1969) 43–9.

  CAS  Google Scholar 

• Ueda, H., Iwase, T.(Tokyo Univ., Tokyo, Japan): Determination of copper and manganese in the human liver by neutron-activation analysis.Kaku Igaku 5 (1968) 157–64 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 33164.

  CAS  Google Scholar 

• Vados, I., Mohai, M., Upor, E.: Determination of tantalum in rocks by neutron activation analysis.Acta Chim. Acad. Sci. Hung. 59 (1969) 171–80, see alsoRef. Zh. Khim. 16 (1969) No. G 106.

  CAS  Google Scholar 

• Van Reenen, T. J., Wet, W. J. de(National Nuclear Research Center, Pelindaba, S. Afr.): Nondestructive activation analysis of high-purity aluminium for uranium and some other impurities.J. S. African Chem. Inst. 21 (1968) 120–6, see alsoNucl. Sci. Abstr. 23 (1969) No. 26198.

  Google Scholar 

• Waal, T. J. de, Peisach, M., Pretorius, R.(Southern Universities Nuclear Institute, Faure, South Africa): Isotopic determination of calcium-48 by deuteron activation.Anal. Chem. 41 (1969) 416–20, see alsoNucl. Sci. Abstr. 23 (1969) No 15825.

  Article  Google Scholar 

• Webster, R. K.(Atomic Energy Research Establishment, Harwell, England): Activation analysis.Engineering 207 (1969) 365–8, see alsoNucl. Sci. Abstr. 23 (1969) No. 17370 andRef. Zh. Khim. 14 (1969) No. G 42.

  Google Scholar 

• Wing, J., Wahlgren, M. A.(Argonne National Lab., Illinois): Optimal detection sensitivities in activation with fast neutron from an²⁴¹ Am−²⁴²Cm−Be source.Appl. Spectrosc. 23 (1969) 5–7, see alsoNucl. Sci. Abstr. 23 (1969) No. 11468.

  Article  CAS  Google Scholar 

• Wogrolly, E., Sorantin, H.(Wien, Labor. für Kunststofftechnik; Seiberdorf, Reaktorzentrum, Österreich. Studiengesellschaft für Atomenergie): Trace elements in plastics. Part 1. Non-destructive determination of trace elements in organic high polymers by neutron activation and gamma-spectrometry.Allgem. Prak. Chemie 20 (1969) 49–55 (in German).

  CAS  Google Scholar 

• Wohlleben, K., Schuster, E.(Forschungslaboratorium Erlangen der Siemens AG, Germany): Aktivierungsanalyse mit Deuteronen. Der totale Wirkungsquerschnitt der Reaktionen¹⁰B(d,n)¹¹C,¹⁴N(d,n)¹⁵O und¹⁶O(d,n)¹⁷F bis 3.2 MeV.Radiochim. Acta 12 (1969) 75–9.

  CAS  Google Scholar 

• Wong, P. Y., Fritze, K.: Determination by neutron activation of copper, manganese and zinc in the pineal body and other areas of brain tissue.J. Neurochem. 16 (1969) 1231–4.

  Article  CAS  Google Scholar 

• Wylie, A. W., Eisler, P. L.(Commonwealth Scientific and Industrial Research Organization, Melbourne, Australia): Prospecting with neutrons.At. Energy Australia 11 (1968) No. 4, 6–12, see alsoNucl. Sci. Abstr. 23 (1969) No. 9543.

  Google Scholar 

• Zagzebski, J. A., Kelsey, C. A.(University of Wisconsin, Madison, Wis.): Carbon activation analysis using a 24 MeV betatron.Second Intern. Conf. on Medical Physics, Boston, Mass., Aug. 11–15, 1969. Abstr. of papers, 40 p. (Td-6).

• Yamada, Y.(Fukuoka Japan, Kyushu Univ., Fac. Agriculture): Occurrence of bromine in plants and soil.Talanta 15 (1968) 1135–41.

  Article  CAS  Google Scholar 

• Yamamoto, Y., Kumamaru, T.: Non-destructive neutron-activation analysis of sodium in Mn−Zn ferrite.Radioisotopes (Tokyo) 18 (1969) 50–1.

  CAS  Google Scholar 

Analysis by nuclear absorption and scattering

• Cranston, F. P., Anspaugh, L. R.(Lawrence Radiation Lab., California Univ., Livermore, Calif.): Preliminary studies in nondispersive X-ray fluorescent analysis of biological materials. UCRL-50569, Jan. 6, 1969, 18 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 24066.

• Emeljanov, V. A., Sinicyn, V. I., Beskin, L. I., Evseev, Y. K.: Neutron measurements of moisture in arable layer.At. Energ. (USSR) 26 (1969) 10–14 (in Russian).

  Google Scholar 

• Hanken, A. F.(Industrial Nucleonics Corp.): Dual channel radiation gauge for identifying material components.US Patent 3 435 220 (1965–1969), see alsoNucl. Sci. Abstr. 23 (1969) No. 22113.

• King, L. G.(Pacific Northwest Lab., Battelle-Northwest, Richland, Wash.): Gamma-ray attenuation for soil water content measurements using²⁴¹Am. BNWL-715 (Pt.4) Oct. 1968, 17–22 p.Pacific Northwest Laboratory Annual Report for 1967 to the US AEC Division of Biology and Medicine. Volume II. Physical Sciences. Part 4. Earth Sciences, see alsoNucl. Sci. Abstr. 23 (1969) Nos 11633 and 11639.

• Mott, W. E., Rhodes, D. F. (Gulf Research and Development Co.): Neutron transmission method of analysis and apparatus therefore.US Patent 3 437 809 (1965–1969), see alsoNucl. Sci. Abstr. 23 (1969) No. 24479.

  Google Scholar 

• Piene, H. (Institutt for Atomenergi, Kjeller, Norway): Measuring of moisture content by means of radioactive isotopes.Tek. Ukeblad 115 (1968) 991–3 (in Norwegian), see alsoNucl. Sci. Abstr. 23 (1969) No. 11889.

  Google Scholar 

• Popham, T. W., Ursic, S. J. (Forest Service, New Orleans): Computer program for converting neutron probe readings to soil water equivalents.Soil Sci. 107 (1969) 302, see alsoNucl. Sci. Abstr. 23 (1969) No. 21819.

  Google Scholar 

• Sakaki, M. (Tokyo Shibaure Electric Co., Ltd., Japan): Moisture measurement by neutrons.Toshiba Rev. (Int. Ed.) No. 40 (1969) 31–7, see alsoNucl. Sci. Abstr. 23 (1969) No. 22108.

  Google Scholar 

• Semel, S., Helf, S. (Picatinny Arsenal, Dover, N. J.): Measurement of low concentrations of moisture by fast neutron moderation.Intern. J. Appl. Radiation Isotopes 20 (1969) 229–39, see alsoNucl. Sci. Abstr. 23 (1969) No. 29244.

  Article  CAS  Google Scholar 

• Shmonin, L. I., Marev, E. V., Gorelkinskaya, S. I.: Roentgeno-radiometric determination of iron, copper and zinc.Sb. Vopr. Obshchei i Prikl. Fiziki, Nauka, Alma-Ata 1969, 269–72 (in Russian), see alsoRef. Zh. Khim. 14 (1969) No. G 112.

• Wack, B. F. (Service National, Electricité de France): Apparatus for measuring the humidity and mass of soils.US Patent 3 428 806, Feb. 18, 1969. Prior, France, July 30, 1965, see also.Nucl. Sci. Abstr. 23 (1969) No. 16171.

Isotope dilution analysis

• Arnold, A., Davis, S., Jordan, A. L. (Division of Pharmacology and Toxicology, Food and Drug Administration, Department of Health, Education, and Welfare, Washington, D.C.): The determination of arsenic in organic and inorganic arsenic compounds: a radioisotope-dilution substoichiometric application.Analyst 94 (1969) 664–9.

  Article  CAS  Google Scholar 

• Koch, L. (Karlsruhe, Euratom, Europäisches Inst. für Transurane): Determination of isotopic concentrations of transuranium elements.Atompraxis 15 (1969) 27–9.

  CAS  Google Scholar 

• McClendon, L. T., De Voe, J. R. (Analytical Chemistry Division, National Bureau of Standards, Washington, D.C.): Substoichiometric radioisotope dilution analysis of tungsten as a major constituent in molybdenum containing materials using toluene-3,5-dithiol.Anal. Chem. 41 (1969) 1454–6.

  Article  CAS  Google Scholar 

• Samaev, V. I.: Analysis of Sb−Bi alloys by radiometric methods.Zh. Analit. Khim. 24 (1969) 894–8.

  Google Scholar 

• Seyama, Y., Yamakawa, T., Komai, T. (University of Tokyo, Faculty of Medicine, Department of Biochemistry; National Institute of Health, Radiation Laboratory, Tokyo, Japan): Application of the isotope dilution method to microanalytical determination of five classes of sphingoglycolipids in tissues. Part 1. Preparation and properties of tritium-labelled sphingoglycolipids.J. Biochem. (Tokyo) 64 (1968) 487–93.

  CAS  Google Scholar 

• Tamura, S., Gunji, K., Toida, K. (Tokaimura, Ibaraki-ken, Japan Atomic Energy Res. Inst.): Determination of hafnium in zircalloy samples by isotope dilution.Japan Analyst 17 (1968) 82–5 (in Japanese)

  CAS  Google Scholar 

Instrumentation, analysis by activity measurements

• Adam, G., Katriel, J. (Nuclear Research Centre, Negev, Beer-Sheva, Israel): An efficiency-independent method in gammaray spectrometry.Health Phys. 16 (1969) 795–6.

  CAS  Google Scholar 

• Andreev, A. G., Zherekhov, V. G., Kutsenko, N. V.: Determination of Ra and ThX in barium sulphate layers.Radiokhimiya 11 (1969) 80–4 (in Russian).

  CAS  Google Scholar 

• Barker, H., Burleigh, R., Meeks, N. (British Museum Research Laboratory, London, England): New method for the combustion of samples for radiocarbon dating.Nature 221 (1969) 49–50, see alsoNucl. Sci. Abstr. 23 (1969) No. 9546.

  Article  CAS  Google Scholar 

• Basch, R. S. (New York Univ., N. Y.): An improved method for counting tritium and¹⁴C in acrylamide gels.Anal. Biochem. 26 (1968) 184–8, see alsoNucl. Sci. Abstr. 23 (1969) No. 9333.

  Article  CAS  Google Scholar 

• Bhandari, N. (Univ. of California, San Diego, La Jolla, California): A selective and versatile low-level beta-, X-, and gamma-ray detector assembly.Nucl. Instr. Methods 67 (1969) 251–6, see alsoNucl. Sci. Abstr. 23 (1969) No. 11782.

  Article  CAS  Google Scholar 

• Blair, G. J., Crofts, F. C. (Univ. of Sydney, Australia): Quantitative and radioactive sulfur (³⁵S) liquid scintillation counting method for determining soil and plant sulfur.Soil Sci. 107 (1969) 277–80 see alsoNucl. Sci. Abstr. 23 (1969) No. 21818.

  CAS  Google Scholar 

• Brownell, J. R., Läuchli, A. (Department of Soils and Plant Nutrition University of California, Davis, Calif.): Measurement of beta-emitters in plant material with Cerenkov radiation: correction of colorquenching.Intern. J. Appl. Radiation Isotopes 20 (1969) 797–8.

  Article  CAS  Google Scholar 

• Chiba, R., Ebisawa, K. (Tokyo Inst. of Tech., Japan): Method of isotopic ratio determination of uranium by Ge(Li) detector.J. Nucl. Sci. Technol. (Tokyo) 6 (1969) 45–6, see alsoNucl. Sci. Abstr. 23 (1969) No. 11438.

  CAS  Google Scholar 

• Civetta, L., Gasparini, P., Adams, J. A. S. (Istituto di Fisica Terrestre, Università di Napoli, Napoli, Italy; Department of Geology, Rice University, Houston, Tex.): Determination of potassium-40 by gamma ray spectrometry for potassium-40/argon-40 geochronology.Anal. Chem. 41 (1969) 1319–22.

  Article  CAS  Google Scholar 

• Cliggett, P. A., Brown, J. M. (National Institutes of Health, Bethesda, Maryl.): Radionuclidic assay procedures for radiopharmaceuticals used at the National Institutes of Health,Second Intern. Conf. on Medical Physics, Boston, Mass., August 11–15, 1969. Abstr. of papers, 85 p., (Thc-4).

• Conceicao, A. S., Prazeres, A. R. (Inst. of Public Health and Tropical Medicine, Lisbon, Portugal): Determination of activity of⁴⁵Ca in solid sources.Rev. Port. Quim. (Lisbon) 10 (1968) 1–5 (in Spanish), see alsoNucl. Sci. Abstr. 23 (1969) No. 17353.

  CAS  Google Scholar 

• Davies, J. W., Hall, T. C. (Edinburgh, Scotland, Univ. of Edinburgh, Dep. of Molecular Biol.; Madison, Wis., Univ of Wisconsin, Dep. of Horticulture): Liquid scintillation counting methods for accurate assay of beta radioactivity in biological experiments.Anal. Biochem. 27 (1969) 77–90.

  Article  CAS  Google Scholar 

• Fuse, K., Anders, E.: Aluminium-26 in meteorites. Part 6. Achondrites.Geochim. Cosmochim. Acta 33 (1969) 653–70.

  Article  CAS  Google Scholar 

• Gavron, A. (Soreq Nuclear Research Center, Yavne, Israel): Automation of the analysis of gamma ray spectra of radionuclide mixtures, with special reference to computer spectrum shifting and dead time correction.Nucl. Instr. Methods 67 (1969) 245–50, see alsoNucl. Sci. Abstr. 23 (1969) No. 11830.

  Article  Google Scholar 

• Hashimoto, T., Iwata, S. (Kyoto Univ., Japan): A new method based on alpha particle track for detection of radionuclides on electromigrated paper.Bunseki Kagaku 18 (1969) 527–8 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 24106.

  CAS  Google Scholar 

• Hertz, M. R. (Mound Lab., Miamisburg, Ohio): Radiation emitted by²³³U,²³²U mixtures. MLM-1400, Mar. 21, 1969, 23 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 17347.

• Jelinek, V. (Brno. Ústav užité geofyziky): Optimal conditions of continuous gammaray spectrum registration with a singlechannel spectrometer.Jaderná Energie 15 (1969) 100–5 (in Czech).

  CAS  Google Scholar 

• Johnson, J. E., Hartsuck, J. M. (Department of Surgery, Harvard Medical School, Peter Bent Brigham Hospital, Boston, Massachusetts): Counting of⁴²K by Cerenkov radiation.Health Phys. 16 (1969) 755.

  CAS  Google Scholar 

• Keefer, D. H., Goodwin, H. F., Ennis, W. J. (Florida State Board of Health, Division of Radiological Health, Jacksonville, Florida): Gamma spectrum analysis computations using a small computer.Health Phys. 16 (1969) 792–4.

  CAS  Google Scholar 

• LeBouton, A. V. (Univ. of California, Los Angeles, Calif.): Liquid scintillation spectrometry of tritium-labeled proteins separated by disc electrophoresis.Anal. Biochem. 26 (1968) 455–7, see alsoNucl. Sci. Abstr. 23 (1969) No. 17358.

  Article  Google Scholar 

• Lindsay, P. A., Kurnick, N. B. (Veterans Administration Hospital, Long Beach; University of California at Irvine, California, College of Medicine, Department of Medicine, Division of Hematology, Irvine, Calif.): Preparation of tissues for liquid scintillation radioactivity counting.Intern. J. Appl. Radiation Isotopes 20 (1969) 97–102, see alsoNucl. Sci. Abstr. 23 (1969) No. 11442.

  Article  CAS  Google Scholar 

• Matsuo, M. (National Inst of Radiological Sciences, Chiba, Japan): A liquid scintillation counting method of¹⁴C and³H-labeled liquid organic acids.Anal. Biochem. 26 (1968) 450–2, see alsoNucl. Sci. Abstr. 23 (1969) No. 17356.

  Article  CAS  Google Scholar 

• Nishimura, S., Hatuda, Z., Asayama, T. (Osaka, Univ., Dep. of Geological Sci.; Tokyo, Univ., Geological and Mineralogical Inst.): A trial method of determining uranium and thorium content in rocks by the radioactive measurements. Part 2.Japan At. Energ. Res. Inst. Geol. 1968, Febr., NSJ-Tr-103, 1–4 p.

• Quittner, P. (Texas A and M University, Activation Analysis Laboratory, College Station, Tex.): Precise peak area determination for Ge(Li) detectors.Anal. Chem. 41 (1969) 1504–6.

  Article  CAS  Google Scholar 

• Roach, K. E. (Southern Nuclear Engineering, Inc., Dunedin, Fla.): The plutonium content of irradiated fuel from power reactors.Reactor Fuel-Process. Technol. 12 (1969) 217–24, see alsoNucl. Sci. Abstr. 23 (1969) No. 33156.

  CAS  Google Scholar 

• Ross, H. H. (Analytical Chemistry Division, Oak Ridge National Laboratory, Oak Ridge, Tenn.): Measurement of betaemitting nuclides using Cerenkov radiation.Anal. Chem. 41 (1969) 1260–5.

  Article  CAS  Google Scholar 

• Roncucci, R., Lambelin, G., Simon, M. J., Soudin, W. (Brussels, Belgium, Continental Pharmac. Res. Laboratories): Simultaneous liquid scintillation determination of tritium and³⁵S in biological low-level samples using the oxygen flask method.Anal. Biochem. 26 (1968) 118–36.

  Article  CAS  Google Scholar 

• Sakanoue, M., Komura, K.: Alpha radioactive nuclides of uranium, protactinium, and thorium in uranium deposits.Geochem. J. (Nagoya) 2 (1968) No. 2, 71–86 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 24110.

  CAS  Google Scholar 

• Smith, H. O., Hochstettler, A. D.: Determination of odor thresholds in air using¹⁴C-labelled compounds to monitor concentrations.Environm. Sci. Technol. 3 (1969) 169–70.

  Article  CAS  Google Scholar 

• Smith, R. W., Phillips, S. H. (National Inst. for Research in Dairying, Reading, England): The quantitative collection of¹⁴C-and tritium labelled products of combustion for liquid scintillation counting.Intern. J. Appl. Radiation Isotopes 20 (1969) 553–5, see alsoNucl. Sci. Abstr. 23 (1969) No. 31301.

  Article  CAS  Google Scholar 

• Spear, P. G., Roizman, B. (Univ. of Chicago, Ill.): An improved procedure for³H and¹⁴C counting in acrylamide gels with a nonaqueous scintillation system.Anal. Biochem. 26 (1968) 197–200, see alsoNucl. Sci. Abstr. 23 (1969) No. 9335.

  Article  CAS  Google Scholar 

• Spence, R. (Canterbury, U. K., Univ. of Kent): The uranium content of sea-water.Talanta 15 (1968) 1307–09.

  Article  CAS  Google Scholar 

• Steward, K. P., (Gulf General Atomic, Inc., San Diego, Calif.): Mica foil technique for determining fuel particle coating contamination. GAMD-9015, Mar. 20, 1969, 44 p., see alsoNucl. Sci. Abstr. 23 (1969) 34118.

• Tewari, S. G., Ghosh, P. C., Bhatnagar, A. S. (New Delhi, National Physical Labor., Building, Dep. of Atomic Energy, Atomic Minerals Div.): A closed circuit technique for the measurement of radon/thoron ratio in soil-gas.Indian J. Pure Appl. Phys 6 (1968) 33–6.

  CAS  Google Scholar 

• Whitehead, N. E., Brooks, R. R. (Massey Univ., Palmerston North, N. Z.): Comparative evaluation of scintillometric, geochemical, and biogeochemical methods of prospecting for uranium.Econ. Geol. 64 (1969) 50–5, see alsoNucl. Sci. Abstr. 23 (1969) No. 31437.

  Article  CAS  Google Scholar 

• Wood, F. W., Robinson, A. H. (Oregon State Univ., Corvallis, Oregon): Compositional examination of lithia glasses by neutron-induced autoradiography.Mater. Sci. Eng. 4 (1969) 247–8, see alsoNucl. Sci. Abstr. 23 (1969) No. 33345.

  Article  CAS  Google Scholar 

Analytical separations involving radioisotopes

• Akaishi, J. (Japan Atomic Energy Research Inst., Tokyo, Japan): Method for determination of plutonium in blood by anion exchange.J. Nucl. Sci. Technol. (Tokyo) 6 (1969) 12–9, see alsoNucl. Sci. Abstr. 23 (1969) No. 11434.

  CAS  Google Scholar 

• Albu-Yaron, A., Mueller, D. W., Suttle, A. D. (Department of Chemistry, Texas A and M Univ., College Station, Tex.): Chemical separation of cerium fission products from microgram quantities of uranium.Anal. Chem. 41 (1969) 1351–3.

  Article  CAS  Google Scholar 

• Ambe, F., Ambe, S., Takeda, M., Wei, H. H., Ohki, K., Saito, N. (Inst. Physical and Chemical Research, Yamato-machi, Saitama, Japan): Radiochemical preparation of⁶¹Cu-copper single line source for the measurement of the Mössbauer effect in⁶¹Ni.Radiochem. Radioanal. Letters 1 (1969) No. 5, 341–4.

  CAS  Google Scholar 

• Anon. (Lovelace Foundation for Medical Education and Research, Albuquerque, N. Mex.): Colloid filtration as a preparative method for radioanalysis of biological samples. LF-39, Nov. 1968. 156–64 p.McClellan, R. O., Rupprecht, F. C. (eds)Fission product inhalation program. Annual Report, Sept. 1967–Sept. 1968., see alsoNucl. Sci. Abstr. 23 (1969) Nos 31602 and 31299.

• Baeckmann, A. V. (Karlsruhe Kernforschungszentrum, Inst. für Radiochem., GFR): The analytical chemistry of transuranium elements.Atompraxis 15 (1969) 15–7 (in German).

  Google Scholar 

• Beneš, J., Kyrš, M.: The coprecipitation of trace amounts of strontium with barium chromate.Collection Czech. Chem. Commun. 33 (1968) 2822–32, see alsoRef. Zh. Khim. 14 (1969) No. B 597.

  Google Scholar 

• Bolshakov, K. A., Sinitsyn, N. M., Borbat, V. F., Borisov, V. V.: On the behaviour of Ru in H₂SO₄ solutions.Radiokhimiya 11 (1969) 107–9 (in Russian).

  CAS  Google Scholar 

• Chau, Y. K., Wong, P. Y. (Hong Kong, Chinese Univ. of Hong Kong, Chung Chi Coll., Chem. Dep.): Determination of scandium in sea-water by atomic-absorption spectroscopy.Talanta 15 (1968) 867–70.

  Article  CAS  Google Scholar 

• Fardy, J. J., Weaver, B. (Oak Ridge National Laboratory, Oak Ridge, Tenn.): Mechanisms in coprecipitation of berkelium-(IV) with cerium(IV) iodate from homogeneous solution.Anal. Chem. 41 (1969) 1299–1302.

  Article  CAS  Google Scholar 

• Feige, B., Gimmler, H., Jeschke, W. D., Simonis W.: Eine Methode zur dünnschichtchromatographischen Trennung von¹⁴C und³²P markierten Stoffwechselprodukten.J. Chromatogr. 41 (1969) 80–90.

  Article  CAS  Google Scholar 

• Fouché, K. F. (Bloemfontein, South Africaf Univ. of the Orange Free State, Dep. o, Chem.): Solvent extraction of hafnium-(IV) by N-benzoyl-N-phenylhydroxylamine.Talanta 15 (1968) 1295–9.

  Article  Google Scholar 

• Galliano Sedano, J. A., Acena Barrencechea, M. L. (Junta de Energia Nuclear, Madrid, Spain): Application of tracers in analytical chemistry. Determination of the yield in the separation of ionium (²³⁰Th) in uranium minerals.Symposium on Application of Radioisotopes, Madrid, Spain, June 19–21, 1967. CONF-670649-36, 1967, 10 p. (in Spanish), see alsoNucl. Sci. Abstr. 23 (1969) No. 24098.

• Gromov, V. V., Spitsyn, V. I. (Acad. Sci. USSR, Inst. of Physical Chem.): Radiochemical determination of the radiolysis products in radioactive Ba, Sr and Ca sulphates.Khimiya Vysokikh Energii 3 (1969) 181–2 (in Russian).

  CAS  Google Scholar 

• Hála, M., Bár, J. (Brno, Vojenská Akad. Antonina Zápotockého): The desorption of traces of¹⁴⁴Ce from cotton fabric in phosphate solutions of different age.Jáderná Energie 15 (1969) 92–4 (in Czech).

  Google Scholar 

• Heslop, R. B., Ramsey, A. C. (Chemistry Department, The University of Manchester, Institute of Science and Technology, Manchester, Great Britain): The solvent extraction of vanadomolybdophosphoric acid as the basis of a substoichiometric method for the determination of phosphorus.Anal. Chim. Acta 47 (1969) 305–14.

  Article  CAS  Google Scholar 

• Jordanov, N., Futekov, L. (Sofia, Bulgaria, Bulgarian Acad. Sci., Inst. of General and Inorganic Chem.; Plovdiv, Bulgaria, High Pedagogical Inst.): Improved specific separation of selenium by solvent extraction with saturated monoketones.Talanta 15 (1968) 850–2.

  Article  CAS  Google Scholar 

• Karger, B. L., De Vivo, D. G. (Boston, Mass., Northeastern Univ., Dep. of Chem.): General survey of adsorptive bubble separation processes.Separation Sci. 3 (1968) 393–424.

  CAS  Google Scholar 

• Kepák, F., Drivá, J.: Separation of radioruthenium on a chelating resin.Collection Czech. Chem. Commun. 3 (1969) 1101–3.

  Google Scholar 

• Kim, T. K., Mooney, R. W., Chiola, V. (Towanda, Pa., Sylvania Electric Products, Inc., Chemical and Metallurgical Div.): Study of soluble tungstate species by solvent extraction.Separation Sci. 3 (1968) 467–78.

  CAS  Google Scholar 

• Koch, G. (Karlsruhe Kernforschungszentrum, Inst. für Heisse Chemie, GFR): Processing of Np, Am and Cm from irradiated reactor fuels.Atompraxis 15 (1969) 26–7 (in German).

  CAS  Google Scholar 

• Koneĉný, C. (Řež near Prague, Czechoslovakia, Czechoslovak Acad. Sci., Nuclear Res. Inst.): Studies on complex formation by solvent extraction method. Part 4. Niobium(V) complexes of aminopolycarboxylic acids.Z. Phys. Chem. 240 (1969) 196–207.

  Google Scholar 

• Koneĉný, C. (Řež near Prague, Czechoslovakia, Czechoslovak Acad. Sci., Nuclear Res. Inst.): Studies on complex formation by solvent extraction method. Part 5. On the complex formation of ruthenium(III) and nitrosylruthenium(III) with nitrosonaphthols.Z. Phys. Chem. 240 (1969) 225–43

  Google Scholar 

• McGee, T., Lynch, J., Boswell, G. G. J. (Salford, Lancashire, England. Univ. of Salford): Rapid radiochemical separation of selenium.Talanta 15 (1968) 1435–9.

  Article  CAS  Google Scholar 

• Mikhaylichenko, A. N., Pimenova, R. M.: Extraction of rare earth elements from nitric acid solution with di-orthophosphoric acid.Radiokhimiya 11 (1969) 8–13 (in Russian).

  Google Scholar 

• Morris, D. F. C., Khan, M. A. (London, U.K., Brunel Univ., Dep. of Chem.): Application of solvent extraction to the refining of precious metals. Part 3. Purification of gold.Talanta 15 (1968) 1301–5.

  Article  CAS  Google Scholar 

• Müller, W. (Karlsruhe, Europäisches Inst. für Transurane, GFR): The production of transplutonium elements from irradiated²⁴¹Am.Atompraxis 15 (1969) 35–7 (in German).

  Google Scholar 

• Navratil, O. (Brno, Czechoslovakia, Fac. Natural Sci., Dep. of Radiochem.): The solvent extraction of hafnium(IV). Part 8. Extraction of Hf(IV) by some dialkyl-phosphoric acids from bromide, iodide, and sulphate media.J. Inorg. Nucl. Chem. 31 (1969) 855–66.

  Article  CAS  Google Scholar 

• Nikolskii, B. P., Andrev, V. I., Mosevich, A. N., Lyubtsev, R. I., Polyakov, M. S.: Adsorption of micro amounts of Nb from aqueous solutions at benzene-activated platinized charcoal.Radiokhimiya 11 (1969) 54–61 (in Russian)

  CAS  Google Scholar 

• Novgorod, A. F., Novikova, M. M., Khalkin, V. A.: Cementation of micro amounts of light rare earth and Yb radioisotopes with Na amalgam in the presence of macro amounts of Tb, Er and Lu.Radiokhimiya 11 (1969) 85–8 (in Russian).

  Google Scholar 

• Palshin, E. S., Palei, P. N., Ivanova, L. A.: Behaviour of Pa(V) and its chemical analogues in strong alkaline solution of tartarate.At. Energ. (USSR) 26 (1969) 297–9 (in Russian).

  CAS  Google Scholar 

• Phillips, R. F., Waterfield, W. R. (Radiochemical Centre, Amersham, England): Effects of drying and equilibration of paper chromatograms of tritium labelled compounds.J. Chromatog. 40 (1969) 309–11, see alsoNucl. Sci. Abstr. 23 (1969) No. 21642.

  Article  CAS  Google Scholar 

• Rösseler, M., Koch, H. (Leipzig, Inst. für Angewandte Radioaktivität, GDR): Analytical and radiometric determination of small amounts of¹⁴C O₂.Z. Anal. Chem. 244 (1969) 169–72 (in German).

  Article  Google Scholar 

• Ruch, R. R. (Analytical chemistry Section, Illinois State Geological Survey, Urbana, Ill.): Radiochemical separation of gallium by amalgam exchange.Anal. Chim. Acta 47 (1969) 425–9.

  Article  CAS  Google Scholar 

• Růžička, J., Lamm, C. G. (Lyngby, Denmark, T. V. of Denmark, Chem. Dep. A.): Automated determination of traces of mercury in biological materials by substoichiometric radioisotope dilution.Talanta 16 (1969) 157–68.

  Article  Google Scholar 

• Růžička, J., Starý, J.: Substoichiometric determination of elements in the radiochemical analysis.Usp. Khim. 38 (1969) 501–38.

  Google Scholar 

• Sheppard, G. (Radiochemical Center, Amersham, England): Artefacts in the paper chromatography of D-mannosamine-1-¹⁴C hydrochloride.J. Chromatog. 40 (1969) 312–5, see alsoNucl. Sci. Abstr. 23 (1969) No. 21641.

  Article  CAS  Google Scholar 

• Sill, C. W. (Atomic Energy Commission, Idaho Falls, Idaho): Separation and radiochemical determination of uranium and the transuranium elements using barium sulfate.Health Phys. 17 (1969) 89–107, see alsoNucl. Sci. Abstr. 23 (1969) No. 28986.

  CAS  Google Scholar 

• Silver, G. L. (Monsanto Research Corp., Miamisburg, Ohio): Facile separation of uranium from²³⁸Pu for isotopic uranium analysis.Anal. Chem. 41 (1969) 548–9, see alsoNucl. Sci. Abstr. 23 (1969) No. 15962.

  Article  CAS  Google Scholar 

• Slater, L. M. (Upton, N.Y., Brookhaven National Labor.): Extraction of potassium, rubidium, strontium and cerium(III) polyiodides into nitrobenzene.J. Inorg. Nucl. Chem. 31 (1969) 851–4.

  Article  CAS  Google Scholar 

• Spivakov, B. J., Zolotov, Y. A. (Acad. Sci. USSR, V. I. Vernardskii Inst. Geochem. and Analytical Chem.): Exchange extraction of intracomplex compounds. A method for the purification of aqueous salt solutions.Dokl. Akad. Nauk SSSR 184 (1969) 1380–2 (in Russian).

  CAS  Google Scholar 

• Taves, D. R. (Rochester, N.Y., Univ. of Rochester, School of Med. and Dentistry, Dep. of Radiation Biol. and Biophysics): Separation of fluoride by rapid diffusion using hexamethyldisiloxane.Talanta 15 (1968) 969–74.

  Article  CAS  Google Scholar 

• Taves, D. R. (Rochester, N.Y., Univ. of Rochester, School of Med. and Dentistry, Dep. of Radiation Biol. and Biophysics): Determination of submicromolar concentrations of fluoride in biological samples.Talanta 15 (1968) 1015–23.

  Article  CAS  Google Scholar 

• Zangen, M. (Yavne, Israel, Soreq Nuclear Res. Center, Desalination Res. Unit.): Solvent extraction from molten salts. Part 8. Temperature dependence in the formation of mixed mercury(II) dihalides.J. Inogr. Nucl. Chem. 31 (1969) 867–71.

  Article  CAS  Google Scholar 

Analysis using radioactive reagents

• Carmichael, I. A., Whitley, J. E. (Scottish Research Reactor Centre, East Kilbride near Glasgow, Scotland): Radio-release determination of fluoride ion.Symposium on Limits of Detection in Analysis, Enschede, April 28–29, 1968. AED-Conf. 68–112,Analyst 94 (1969) 737–9.

• Hammerstrom, H. E.: An investigation of the feasibility of making radiometric titrations of precipitation reactions.Diss. Univ. of the Pacific, Stockton, Calif., 1968, 136 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 11433.

• Teplich, L. A.: Radioisotopes of Te as indicators for total Po separation.Radiokhimiya 11 (1969) 122–3 (in Russian).

  Google Scholar 

• Anderson, H. F., Sheehan, W. E.(Mound Lab., Miamisburg, Ohio): Environmental Monitoring Report: July–December 1968 and 1968 Summary. MLM-1619, Mar. 21, 1969, 50 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 21823.

• Anon.(Forsvarets Forskningsrad, Copenhagen, Denmark): Measurements of fission product activity in air and in precipitation up to 30 June 1968.Report No. 29. FFR-403/68, Oct. 1968, 10 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 21822.

• Anon.(Health and Safety Lab., New York Operations Office, AEC, N.Y.): Fallout program.Quarterly Summary Report, September 1–December 1, 1968. Appendix. HASL-204 (App.), Jan. 1, 1969, 364 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 22283.

• Anon.(National Inst. of Radiological Sciences, Chiba, Japan): Radioactivity survey data in Japan. NIRS-19, May 1968, 18 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 21824.

• Anon.(Radiation Protection Div., Department of National Health and Welfare, Ottawa, Canada): Data from radiation protection programs. Vol. 6, No. 9. NP-17782, Sept. 1968, 21 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 22284.

• Anon.(Atomic Energy Commission, Ankara, Turkey): Fourth activity report of the Radioactive Fallout Laboratory, August 1966–July 1967. NP-17807, 1969, 16 p. (in Turkish), see alsoNucl. Sci. Abstr. 23 (1969) No. 22285.

• Anon.(Radiation Protection Div., Department of National Health and Welfare, Ottawa, Canada): Data from radiation protection programs. Vol. 6, No. 10. NP-17823, Oct. 1968, 21 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 22286.

• Beasley, T. M., Held, E. E.(Univ. of Washington, Seattle, Washington):⁶³Ni in marine and terrestrial biota, soil, and sediment.Science 164 (1969) 1161–3, see alsoNucl. Sci. Abstr. 23 (1969) No. 29490.

  Article  CAS  Google Scholar 

• Blanchard, R. L., Moore, J. B.(Bureau of Radiological Health, PHS, Cincinnati, Ohio):²¹⁰Pb and²¹⁰Po in tissues of Alaskan Eskimo.14th Annual Meeting of the Health Physics Society, Pittsburgh, Pennsylvania, June 8–12, 1969.Health Phys. 17 (1969) 387/8 (P/108).

  Google Scholar 

• Blanchard, R. L.(Bureau of Radiological Health, PHS, Cincinnati, Ohio): Radon-222 daughter concentrations in uranium mine atmospheres.14th Annual Meeting of the Health Physics Society, Pittsburgh, Pennsylvania, June 8–12, 1969.Health Phys. 17 (1969) 388 (P/109).

  Google Scholar 

• Blincoe, C., Bohman, V. R., Fountain, E. L.(University of Nevada, Reno, Nevada; U. S. Atomic Energy Commission, Las Vegas, Nevada): Fallout concentrations in cattle grazing highly contaminated range.Health Phys. 17 (1969) 559–64.

  CAS  Google Scholar 

• Bortoli, M. C. de, Caglione, P.(Joint Nuclear Research Center, Ispra Establishment, Protection Service, Ispra, Italy): SNAP plutonium-238 fallout at Ispra, Italy.Health Phys. 16 (1969) 197–204.

  Google Scholar 

• Bowen, V. T., Noshkin, V. E., Volchok, H. L., Sugihara, T. T.(Woods Hole Oceanographic Institution, Mass.):⁹⁰Sr concentrations in surface waters of the Atlantic Ocean.Science 164 (1969) 825–7, see alsoNucl. Sci. Abstr. 23 (1969) No. 29030.

  Article  CAS  Google Scholar 

• Bulimac, P.: Etude de la radioactivité d’un cépage.Rev. Roumaine de Physique 14 (1969) 287–301.

  Google Scholar 

• Cambray, R. S., Fisher, E. M. R., Brooks, W. L., Peirson, D. H.(Atomic Energy Research Establishment, Harwell, England): Radioactive fallout in air and rain results to the middle of 1968. AERE-R-5899, Dec. 1968, 55 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 19862.

• Conlan, B., Henderson, P., Walton, A.: A simplified procedure for the assay of picocurie concentrations of²²⁶Ra and its application to a study of the natural radioactivity in surface waters in Scotland.Analyst 94 (1969) 15–9.

  Article  CAS  Google Scholar 

• Czosnowska, W., Pietrzak-Flis, Z., Grabowski, D.(Central Laboratory for Radiological Protection, Warsaw, Poland): Relationship between the⁹⁰Sr/Ca ratio in the diet and urine of a population.Health Phys. 16 (1969) 155–8.

  CAS  Google Scholar 

• Denham, D. H.(Battelle-Northwest, Richland, Pacific Northwest Lab., Richland, Washington): Radiological status of the ground water beneath the Hanford project, July–December 1968. BNWL-1047, May 1969, 20 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 33261.

• Fairhall, A. W., Young, J. A.(Washington Univ., Seattle, Wash.): Radiocarbon in the environment. RLO-2091-2, 1968, 21 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 29009.

• Fairhall, A. W.(Washington Univ., Dept. of Chemistry, Seattle, Washington): Radiocarbon in the sea. RLO-2091-3.Progress Report, August 15, 1968–May 1, 1969, 16 p., see alsoNucl. Sci. Abstr. 23 (1969) No. 29028.

• Fujita, M., Iwamoto, J., Kondo, M.(Division of Health Physics and Safety, Japan, Atomic Energy Research Institute, Tokai, Ibaraki, Japan): Variation of strontium calcium observed ratio (urine/diet) in man.Health Phys. 16 (1969) 441–7.

  CAS  Google Scholar 

• Jenkins, C. E.(Battelle Memorial Institute, Pacific Northwest Laboratory, Richland, Washington): Radionuclide distribution in Pacific salmon.Health Phys. 17 (1969) 507–12.

  CAS  Google Scholar 

• Levi, H., Lindeman, J., Fenger, K.(Zoophysiological Laboratory, A, University of Copenhagen; Biochemical Department, School of Dentistry; Institute of Human Genetics, University of Copenhagen, Copenhagen, Denmark): Strontium-90 in human bone (Denmark 1964–1967).Health Phys. 17 (1969) 354–6.

  CAS  Google Scholar 

• Lloyd, R. D., Pendleton, R. C., Downard, T. R.(University of Utah, Salt Lake City, Utah): Radioactivity within a tunnel in granitic rock.Health Phys. 15 (1968) 274–6, see alsoNucl. Sci. Abstr. 22 (1968) No. 45181.

  CAS  Google Scholar 

• Mamuro, T., Matsunami, T.:²³⁸Pu in fallout.Ann. Rept. Radiation Centre Osaka Prefect. 9 (1968) 1–4, see alsoNucl. Sci. Abstr. 23 (1969) No. 33273.

  Google Scholar 

• Matsunami, T., Mamuro, T.(Department of Health Physics and Instrumentation, Radiation Centre of Osaka Prefecture, Osaka, Japan): Uranium in fallout particles.Nature 218 (1968) 555–6.

  Article  CAS  Google Scholar 

• Moss, W. D., Campbell, E. E., Schulte, H. F., Tietjen, G. L.(Los Alamos Scientific Laboratory, University of California, Los Alamos, New Mexico): A study of the variations found in plutonium urinary data.Health Phys. 17 (1969) 571–8.

  CAS  Google Scholar 

• Palmer, B. D., Kuroda, P. K.(University of Arkansas, Department of Chemistry, Fayetteville, Ark.): Distribution of strontium-90 and cerium-114 in the stratosphere.Health Phys. 15 (1968) 31–6.

  CAS  Google Scholar 

• Potter, G. D., McIntyre, D. R., Pomeroy, D.(Livermore, Calif., Univ. of California, Lawrence Radiation Labor., Bio-Medical Div.): Transport of 17 fallout radionuclides in the grass-to-milk food chain studied with a germanium-lithium drifted detector.Health Phys. 16 (1969) 297–300.

  CAS  Google Scholar 

• Swindle, D. L., Kuroda, P. K.(Univ. of Arkansas, Fayetteville, Ark.): Variations of the⁸⁹Sr/⁹⁰Sr ratio in rain caused by the Chinese nuclear explosions of December 28, 1966, and June 17, 1967.J. Geophys. Res. 74 (1969) 2136–40, see alsoNucl. Sci. Abstr. 23 (1969) No. 21828.

  CAS  Google Scholar 

• Tassi Pelati, L., Triulzi, C.(Univ. Parma, Italy): Radioactivity contents in some plankton and sea water samples collected during the period between 1960–68 and their correlations.Energia. Nucl. (Milan) 16 (1969) No. 5, 17–26, see alsoNucl. Sci. Abstr. 23 (1969) No. 29484.

  Google Scholar 

• Wollenberg, H. A., Patterson, H. W., Smith, A. R., Stephens, L. D.(Lawrence Radiation Laboratory, University of Calif., Berkeley, California): Natural and fallout radioactivity in the San Francisco Bay area.Health Phys. 17 (1969) 313–21.

  CAS  Google Scholar 

• Anon.(Japan Atomic Energy Research Inst., Tokyo, Japan): Environmental survey JAERI-5017, June 1968, 131–9 p. (in Japanese).Activities in the Division of Health Physics and Safety, April 1, 1967–March 31, 1968, see alsoNucl. Sci. Abstr. 23 (1969) Nos 17346 and 18019.

• Calf, G. E.(Australian Atomic Energy Commission Research Establishment, Sutherland, Australia): Catalytic exchange method for low-level tritium measurements in water.Intern. J. Appl. Radiation Isotopes 20 (1969) 117–85, see alsoNucl. Sci. Abstr. 23 (1969) No. 15813.

  Google Scholar 

• Cottignies, S.(Commissariat à l’Energie Atomique, France): Device for detecting the radioactive contamination of a surface.Brit. Patent 1 120 644 (1964–1968), see alsoNucl. Sci. Abstr. 22 (1968) No. 43036.

  Google Scholar 

• Duggan, M. J., Howell, D. M.(Radiological Protection Service, Belmont, Sutton, Surrey, England): The measurement of the unattached fraction of airborne RaA.Health Phys. 17 (1969) 423–7.

  CAS  Google Scholar 

• Eisenbud, M., Laurer, G. R., Rosen, J. C., Cohen, N., Thomas, J., Hazle, A. J.(New York University Medical Center, Institute of Environmental Medicine, New York; Colorado State Department of Public Health): In vivo measurement of lead-210 as an indicator of cumulative radon daughter exposure in uranium miners.Health Phys. 16 (1969) 637–46.

  CAS  Google Scholar 

• Gotchy, R. L., Schiager, K. J.(Department of Radiology and Radiation Biology, Colorado State University, Fort Collins, Colorado): Bioassay methods for estimating current exposures to short-lived radon progeny.Health Phys. 17 (1969) 199–218.

  CAS  Google Scholar 

• Harley, N. H., Pasternack, B. S.(New York Univ., New York, N.Y.): Rapid estimation of radon daughter working levels when daughter equilibrium is unknown.Health Phys. 17 (1969) 109–14, see alsoNucl. Sci. Abstr. 23 (1969) No. 31300.

  CAS  Google Scholar 

• Ikeda, N., Kimura, K., Izawa, K., Yasui, T.(Tokyo, Kyoiku Univ., Japan): Rapid method for the radiochemical determination of⁹⁵Zr−⁹⁵Nb in sea water.Radioisotopes (Tokyo) 18 (1969) 8–11, see alsoNucl. Sci. Abstr. 23 (1969) No. 11436.

  CAS  Google Scholar 

• Kadoya, S.(Ebara Mfg. Co., Ltd.): Method for measuring the concentration of radioactive cesium in sea-water.Jap. Patent 1968–12476 (1962–1968), see alsoNucl. Sci. Abstr. 23 (1969) No. 4529.

  Google Scholar 

• Kanapilly, G. M., Yaeger, D. J.(Fission Product Inhalation Laboratories, Lovelace Foundation for Medical Education and Research, Albuquerque, New Mexico): Colloid filtration as a preparative method for the radiochemical analysis of biological samples.Health Phys. 17 (1969) 579–91.

  CAS  Google Scholar 

• Kelkar, D. N., Joshi, P. V.(Air Monitoring Section, Health Physics Division, Bhabha Atomic Research Centre, Trombay, Bombay, India): A rapid method for estimating radium and radon in water.Health Phys. 17 (1969) 253–7.

  CAS  Google Scholar 

• Lindeken, C. L., Denham, D. H.(Lawrence Radiation Laboratory, University of Calif., Livermore, Calif.): Detection of plutonium on air filters using the alpha/beta ratio of residual thoron daughter activity.Health Phys. 16 (1969) 235–8.

  CAS  Google Scholar 

• Mamuro, T., Matsunami, T.: Observation of the nuclear debris from the French nuclear explosions of July to September 1968.Ann. Rept. Radiation Center Osaka Prefect. 9 (1968) 9–13, see alsoNucl. Sci. Abstr. 23 (1969) No. 33271.

  CAS  Google Scholar 

• Martz, D. E., Hollemen, D. F., McCurdy, D. E., Schiager, K. J.(Colorado State Univ., Fort Collins, Colorado): Analysis of atmospheric concentrations of RaA, RaB, and RaC by alpha spectroscopy.Health Phys. 17 (1969) 131–8, see alsoNucl. Sci. Abstr. 23 (1969) No. 28742.

  CAS  Google Scholar 

• Moore, W. S.(Columbia Univ., Palisades, N.Y.): Measurement of²²⁸Ra and²²⁸Th in sea water.J. Geophys. Res. 74 (1969) 694–704, see alsoNucl. Sci. Abstr. 23 (1969) No. 9314.

  Article  CAS  Google Scholar 

• Pelat, L. T., Triulzi, C.: Radioactivity content in some plankton and sea water samples collected during the period between 1960–68 and their correlations.Energ. Nucleare 16 (1969) 312–8.

  Google Scholar 

• Raabe, O. G., Wrenn, M. E.(Fission Product Inhalation Laboratories, Lovelace Foundation for Medical Education and Research, Albuquerque, New Mexico; Institute of Environmental Medicine, New York University Medical Center, New York, N.Y.): Analysis of the activity of radon daughter samples by weighted least squares.Health Phys. 17 (1969) 593–605.

  CAS  Google Scholar 

• Ramsden, D.(United Kingdom Atomic Energy Authority, A. E. E., Winfrith, Dorchester, England): The measurement of plutonium-239 in vivo.Health Phys. 16 (1969) 145–53.

  CAS  Google Scholar 

• Ramzaev, P. V., Nevstrueva, M. A., Ilin, L. A., Prokofev, O. N., Popov, D. K., Svydko, N. S., Sapiro, E. L., Perova, A. A., Samov, V. P.: Results of investigation of nuclear fallout on the territory of the RSFSR.At. Energ. (USSR) 26 (1969) 62–4 (in Russian).

  Article  CAS  Google Scholar 

• Rosen, J. C., Laurer, G. R., Wrenn, M. E.(New York University Medical Center, Institute of Environmental Medicine, New York, N.Y.): The in vivo measurement of lead-210 in man.14th Annual Meeting of the Health Physics Society, Pittsburgh, Pennsylvania, June 8–12, 1969.Health Phys. 16 (1969) 385 (P/99).

  Google Scholar 

• Sanderson, C. G.(Health and Safety Laboratory, U.S. Atomic Energy Commission New York, N. Y.): Determination of²²⁶Ra and²²⁸Th in food, soil, and biological ash by multidimensional coincident gamma-ray spectrometry.Health Phys. 16 (1969) 747–53.

  CAS  Google Scholar 

• Sansoni, B., Kracke, W., Winkler, R.(Institut für Strahlenschutz, Gesellschaft für Strahlenforschung, München, Germany): Rapid assay of environmental radioactive contamination with special reference to a new method of wet ashing.IAEA Seminar on Agricultural and Public Health Aspects of Environmental Contamination by Radioactive Materials, Vienna, Mar. 24–28, 1969. GSF-S 68, Mar. 1969, 22 p.

• Sant, W. H., Garland, T. R., Roemer, J. J.(Atlantic Richfield Hanford Co., Richland, Washington): Improvements in radiochemical analysis and data reduction of environmental air samples.24th Northwest Regional Meeting of the American Chemical Society, Salt Lake City, Utah, June 12–13, 1969. ARH-SA-29. 1969, 21 p. CONF-690606-3, see alsoNucl. Sci. Abstr. 23 (1969) No. 31297.

• Sill, C. W.(Health Services Laboratory, U.S. Atomic Energy Commission, Idaho Falls, Idaho): An integrating air sampler for determination of²²²Rn.Health Phys. 16 (1969) 371–7.

  Article  CAS  Google Scholar 

• Suzuki, T., Sobotbayashi, T.(Niigata Univ., Japan): Separation and detection of²³⁷U from radioactive fallouts by solvent extraction methods.Nippon Kagaku Zasshi 89 (1968) 1084–6 (in Japanese), see alsoNucl. Sci. Abstr. 23 (1969) No. 9331.

  CAS  Google Scholar 

• Vakulovskii, S. M., Silantev, A. N.(Inst. of Experimental Meteorology, Obnins, USSR): Radiometric device for determining the⁹⁰Sr content in sea water.Nucl. Instr. Methods 68 (1969) 42–4, see alsoNucl. Sci. Abstr. 23 (1969) No. 16122.

  Article  CAS  Google Scholar 

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