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Activation analysis
Abbosov, O., Abrams, I. A., Pelekis, L. L., Starchik, L. P.: Determination of hafnium in zirconium ores and concentrates by neutron activation.Izv. Akad. Nauk Latv. SSR, Ser. Fiz. i Tekhn. Nauk, No. 4 (1971) 20–23 (in Russian), see alsoRef. Zh. Khim. 3 (1972) No. G 110.
Abbosov, O., Abrams, I. A., Pelekis, L. L., Starchik, L. P.: Determination of gold in ores by non-destructive activation analysis.Izv. Akad. Nauk Latv. SSR, Ser. Fiz. i Tekhn. Nauk, No. 5 (1971) 3–6 (in Russian), see alsoRef. Zh. Khim. 8 (1972) No. G 136.
Abbosov, O., Kodiri, S., Starchik, L. P.: Gamma and neutron activation analysis using an electron linear accelerator of 4 2 MeV.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 244–50 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 130.
Adams, F., Op de Beeck, J. P., Van den Winkel, P. (Ghent Rijksuniversiteit, Belgium): Activation analysis.CRC Crit. Rev. Anal. Chem. 1 (1971) 455–586, see alsoNucl. Sci. Abstr. 25 (1971) No. 37321.
Aibinder, N. G., Veveris, O. E., Zeibots, A. A., Pelekis E. E., Pelekis, L. L. Taure, I. Ya.: Investigation of platinum losses in glass fiber production by the neutron activation method.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 40 (in Russian), see alsoRef. Zh. Khim. 6 (1972) No. G 193.
Aleksandrova, G. I., Borisov, G. I., Demidov, A. M., Zakharov, E. A., Sukhov, G. V., Shmanenkova, G.I., Shchelkova, V. P.: The use of accelerated3He ions for the determination of oxygen and carbon impurities in some pure materials.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 181–4 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 160.
Alimarin, I. P., Yakovlev, Yu. V.: Nuclear physical methods of analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 5–14 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 53.
Alvi, Z. M. (Kaiser-Permanente Medical Center, Los Angeles, Calif., USA):252Cf focused neutron gun for activation of skintissue to detect above-normal amounts of sodium.Meeting on Neutron Sources and Applications; Augusta, Ga., 18 Apr. 1971. CONF-710402-(Vol. 2). p. II.61-6, see alsoNucl. Sci. Abstr. 25 (1971) No. 48463.
Anon. (National Nucl. Corp.): Method for the non-destructive assay of bulk nuclear reactor fuel and apparatus.British Patent 1.240.235. 21 July 1971. Priority date 13 May 1968. United States, see alsoNucl. Sci. Abstr. 25 (1971) No. 48495.
Anon. (Aktiebolaget Atomenergi, Studsvik, Sweden): Nuclear chemistry.Progress Report 1970. AE-419, 1971, 32 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 39526.
Anon. (International Atomic Energy Agency, Vienna, Austria): Nuclear well logging in hydrology.Technical Reports Series No. 126. IAEA-1971, 95 p., STI/DOC-10/126, see alsoNucl. Sci. Abstr. 25 (1971) No. 34725.
Anon.: Nuclear physical methods for the analysis of substances.Vses. nauchn.-tekhn. Konf. XX let proiz-va i primeneniya izotopov i istochnikov yader. izluch. v nar. kh.-ve SSSR, Minsk, Oct. 1968. Atomizdat, Moskva, 1971, 495 p. (in Russian), see alsoRef. Zh. Khim. 3 (1972) No. G 1.
Anoshin, G. N., Perezhogin, G. A., Melnikova, R. D.: Some methodological problems of the application of radioactivation analysis in the study of the geochemistry of gold.Sb. Analiz. i tekhnol. blagorod. met., Metallurgiya, Moskva, 1971, 295–7 (in Russian), see alsoRef. Zh. Khim. 6 (1972) No. G 116.
Aron, S. J. Jr. (Republic Steel Corp., Cleveland, Ohio, Nucl. Div., USA): Fast process measurement for manganese in steels by neutron activation analysis.Meeting on Neutron Sources and Application, Augusta, Ga. 18 Apr. 1971. CONF-710402-(Vol. 3), p. IV. 30-9, see alsoNucl. Sci. Abstr. 25 (1971) No. 48473.
Artyukhin, P. I.: Present status of the activation analysis.Sb. Sintez, ochistka i analiz neorgan. materialov, Nauka, Novosibirsk, 1971, 230–6 (in Russian), see alsoRef. Zh. Khim. 10 (1972) No. G 44.
Artyukhin, P. I., Pronin, V. A., Silvanovich, Yu. A.: Determination of noble metal impurities in platinum by neutron activation.Sb. Analiz. i tekhnol. blagorod. met., Metallurgiya, Moskva, 1971, 344–6 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 165.
Artyukhin, P. I., Startseva, E. A., Silvanovich, Yu. A., Mirtyakin, Yu. L., Pronin, V. A.: Determination of traces of gold, platinum and palladium in pure silver.Sb. Analiz i tekhnol. blagorod, met., Metallurgiya, Moskva, 1971, 286–8 (in Russian), see alsoRef. Zh. Khim. 5 (1971) No. G 161.
Babaev, A., Khaidarov, A., Akramov, M. B., Dusmatov, V.: Determination of tantalum in sphene by neutron activation.Dokl. Akad. Nauk Tadzh. SSR, 14 (1971) No. 6, 22–5 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 147.
Balbakov, Dzh., Shalpykov, A. Sh: Determination of sodium in lithium fluoride crystals by neutron activation analysis.Redkollegia Zh. “Izv. Akad. Nauk Kirg SSR”, Frunze, 1971, No. 3343-71 Dep. (in Russian), see alsoRef. Zh. Khim. 6 (1972) No. G 175.
Bartošek, J., Kašparec, I., Škuthan, B. (Inst. of Applied Geophys. Prague, Czechoslovakia): Use of activation analysis in fluorite prospecting.Geol. Pr∪zkum 12 (1970) 165–7 (in Czech), see alsoNucl. Sci. Abstr. Czech. 3 (1971) No. 0522.
Belov, A. F., Egiazarov, B. G., Zyubko, V. A., Karpukhin, O. A.: Development of control and measuring instrumentation for multipurpose laboratory neutron activation analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 338–46 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 35.
Belov, V. I., Brovtsin, V. K., Vitozhents, G. Ch., Martynov, Yu. T., Sulin, V. V., Suslov, V. G., Shorinkov, S. I.: Possibilities of the common use of gamma and neutron activation methods for simplified analysis of silicate rocks and ores.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 216–21 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 121.
Belyakov, M. A., Anchevskii, E. V., Terentev, E. P.: Conditions of selective activation of aluminium in presence of Si using Pu−Be neutron sources.Zavodsk. Lab. 37 (1971) 567–8 (in Russian).
Belyakov, M. A., Anchevskii, E. V.: Continuous control of boron content in liquid streams or muds by the reflexion of thermal neutrons.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 156–9 (in Russian), see alsoRef. Zh. Khim. 7 (1971) No. D 45.
Berényi, D. (ATOMKI, Debrecen, Hungary): Recent results in the oxygen determinations using modern physical methods.Magy. Kém. Lapja 26 (1971) 635–9 (in Hungarian), see alsoRef. Zh. Khim. 12 (1972) No. G 114.
Berzina, I. G.: Determination of the concentrations, and the world-wide distribution of uranium, thorium, boron and lithium in rocks.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 117–24 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 119.
Blake, K. R. (Nuclear-Chicago Corp., Austin, Tex., USA): Automatic industrial activation analysis system for slurries using a radioisotope neutron source.Anal. Instrum. 9 (1971) F.4.1–5, see alsoNucl. Sci. Abstr. 26 (1972) No. 6493.
Blinkov, D. I., Lobanov, E. M.: Determination of microimpurities in pure titanium and its oxides by activation analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 90 (in Russian), see alsoRef. Zh. Khim. 3 (1972) No. G 136.
Bochenin, V. I., Shirokii, V. K. (Polytechn. Inst., Karaganda USSR): Activation analysis of silicon dioxide in iron ore concentrates.Zavodsk. Lab. 37 (1971) 46–7 (in Russian).
Bogáncs, J., Cseh, S., Elek, A., Saly, S., Simonits, A., Ördögh, M., Szabó, E.: The use of activation analysis for the determination of impurities in materials of semiconductor production.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 46–51 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 179.
Bolshakov, A. Yu., Absaragov, Kh. B.: Nuclear physical methods for the analysis of minerals from Kolsk peninsula.Sb. Metody analiza mineraln.Syrya, Apatity, 1971, 222–7 (in Russian), see alsoRef. Zh. Khim. 24 (1971) No. G 193.
Bonnet-Masimbert, O., Prenat, M. F., Valentin, J., Sengel, P. (Univ., Grenoble, France): Development of an activation analysis method, using the reaction (p, 2n) and γ-spectrometry. Application to iron determination in chicken blastoderm.Compt. Rend. Ser. D, 273 (1971) No. 3 387–7 (in French), see alsoNucl. Sci. Abstr. 26 (1972) No. 6495.
Bonnet-Masimbert, O., Prenat, M. F. (Inst. des Sciences Nucléaires, Grenoble Univ., France): Radioactivation analysis of iron in young developing chick blastoderms using56Fe(p, 2n)55Co and a Ge(Li) detector for gamma ray spectrometry.Meeting on Chemical Analysis by Charged Particle Bombardment; Namur, Belgium, 5 Sep., 1971. FRNC-CONF-11, see alsoNucl. Sci. Abstr. 26 (1972) No. 1799.
Bonnet-Masimbert, O., Prenat, M. F. (Grenoble Univ., France): Changes in the iron content in the blastoderm of the chicken embryo in the early development stages: analysis by radioactivation and γ-spectrometry.1971, Thesis, 124 p. FRNC-TH-36 (in French), see alsoNucl. Sci. Abstr. 26 (1972) No. 1800.
Bontemps, A., Ligeon, E. (Commissariat à l'Energie Atomique, Centre d'Etudes Nucléaires, Grenoble, France): Boron and oxygen analysis using nuclear reactions. Aug. 1971. CEA-N-1492, 37 p. (in French), see alsoNucl. Sci. Abstr. 26 (1972) No. 6491.
Brill, A. B., Patton, J., Johnston R. E., Dyer, N., Baglan, R. J., Erickson, J., Rolfes, R. (School of Medicine, Vanderbilt Univ., Nashville, Tenn., USA): Evaluation of lithium-drifted germanium detectors for radioisotope scanning and activation analysis studies.Symp. on the Role of Semiconductor Detectors in the Future of Nuclear Medicine, Chicago, Ill., USA, 12 Feb., 1971. CONF-710204-3, 1971, 22 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 39701.
Brune, D.: Nuclear method for the analysis of metallic surfaces.Kem. Tidskr. 83 (1971) No. 11, 50–2 (in Swedish), see alsoRef. Zh. Khim. 5 (1972) No. G 157.
Buchanon, J. D., Bialy, K. J.: Neutron activation analysis of water—a review. AJAA Papers, No. 1052, 1971, 8 p., see alsoRef. Zh. Khim. 10 (1972) No. G 168.
Campbell, F. T., Steele, E. L.: Determination of tellurium by instrumental photon activation analysis.Anal. Lett. 4 (1971) 445–50.
Carlton, R. F., Lehman, A. Jr. (Middle Tenn. State Univ., Murfreesboro, USA): Analysis of Nashville air pollution via neutron activation analysis.J. Tenn. Acad. Sci. 46 (1971) No. 2, 63–5, see alsoNucl. Sci. Abstr. 26 (1972) No. 6516.
Carmello Gandolfo, M. T., Strigazzi, A. (Ospedale Maria Vittoria, Turin, Politecnico, Turin, Italy): Analysis of sodium in the nails by means of neutron activation.Fracastoro 63 (1970) No. 3–4, 340–6 (in Italian), see alsoNucl. Sci. Abstr. 26 (1972) No. 40.
Carpenter, R. (Comp.), (Dept. of Oceanography, Washington Univ., Seattle USA): Columbia river effects in the Northeast Pacific: chemical and geological studies.Progress Report, July 1970-May 1971, RLO-1725-201, 1971, see alsoNucl. Sci. Abstr. 25 (1971) No. 37319.
Chanyshev, A. I., Chanysheva, T. I., Lobanov, E. M.: Neutron activation equipment and method for the determination of fluor in fluorite ore samples and concentrates.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 159–65 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 141.
Chapyzhnikov, B. A., Vasserman, A. M., Kunin, L. L. (Inst. of Geochem. and Anal. Chem. Moscow; Inst. of Phys Problems, Moscow, USSR): Radioactivation method for determining oxygen in solid substances by the photonuclear reaction with a sensitivity of 10−6 to 10−5 wt. per cent.Zh. Analit. Khim. 26 (1971) 1366–72 (in Russian), see alsoNucl. Sci. Abstr. 25 (1971) No. 48494.
Craft, T. F., Eicholz, G. G. (Georgia Inst. of Techn., Atlanta, USA): Use of post-sampling activation analysis in sewage treatment plants.Trans. Amer. Nucl. Soc. 14 (1971) 469. FromJoint Meeting of the American Nuclear Society; Miami Beach, Fla., 17 Oct. 1971. CONF-711009, see alsoNucl. Sci. Abstr. 26 (1972) No. 1802.
Daiev, Ch., Georgiev, G., Jovtschev, M., Stefanov, G., Apostolov, D. (Univ. Sofia, Bulgaria): Investigation of cupelling method used for ruthenium and iridium isolation.Isotopenpraxis 7 (1971) 138–41 (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 48488.
Damburg, N. A., Pelekis, L. L. (Inst. of Phys., Riga, USSR): Use of boron and indium filters in the activation analysis by reactor neutrons.Izv. Akad. Nauk SSR, Ser. Fiz. i Tekhn. Nauk, No. 2 (1971) 3–9 (in Russian), see alsoNucl. Sci. Abstr. 25 (1971) No. 48475.
Dams, R., Rahn, K. A.: Activation analysis of particulates.Isotopes Radiat. Technol. 9 (1971) 53–5.
Das, H., Zonderhuis, J. (Res. Centrum Nederland, Petten, The Netherlands): Corrections for dead-time losses in the measurement of gamma-ray spectra of short-lived radionuclides.Nucl. Technol. 10 (1971) 328–34, see alsoNucl. Sci. Abstr. 25 (1971) No. 37638.
De Goeij, J. J. M. (Interuniv. Reactor Inst., Delft, The Netherlands): Utilization of activation analysis as a detection technique for mercury.Meeting on Environmental Pollution, Mol, Belgium, 18 March, 1971, CONF-710325-1, 1971, 10 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 48462.
Dogadkin, N. N., Yakovlev, Yu. V.: Determination of impurities in gram samples of gallium arsenide by activation.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 29–35 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G. 183.
Dolgolenko, A. P., Kornienko, N. D., Litovchenko, P. G.: Determination of oxygen in silicon and silicon carbide by activation with alpha particles of 27.2 MeV energy.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 184–8 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 175.
Dubinchuk, V. T., Kasatkin, V. A., Mikhailov, N. A., Chulanov, Yu. G.: Use of the NG-160 neutron generator for the neutron activation analysis of sandyclayey rocks to determine the contents of silicon and aluninium.Izotopy SSSR No. 19 (1970) 19–24 (in Russian), see alsoNucl. Sci. Abstr. 25 (1971) No. 48486.
Duffey, D. (Univ. of Maryland, College Park, USA): Element sensitivities for analysis by thermal-neutron capture gamma rays.Trans. Amer. Nucl. Soc. 14 (1971) 931–2,Joint Meeting of the American Nuclear Society; Miami Beach, Fla., 17 Oct. 1971, CONF-711009, see alsoNucl. Sci. Abstr. 26 (1972) No. 1807.
Duffey, D., Wiggins, P. F., Senftle, F. E. (Maryland Univ., College Park; US Naval Academy, Annapolis, Md.; Geological Survey, Washington D. C., USA): Application of neutron capture gamma rays using a252Cf neutron source to industrial process stream analysis.Meeting on Neutron Sources and Application; Augusta, Ga., 18 Apr. 1971, CONF-710402-(Vol. 3), p. IV. 18–29, see alsoNucl. Sci. Abstr. 25 (1971) No. 48472.
Dutov, A. G., Leushkina, G. V., Lobanov, E. M., Matveeva, N. P.: Rapid and sensitive analysis using short-lived isotopes.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 72–7 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 123.
Dzhemardyan, Yu. A., Mikhailov, G. I., Starchik, L. P.: Isotopic analysis of lithium and boron according to γ-quanta accompanying the nuclear reactions7Li(α, α′)7*Li,10B(α, p)13*C.Sov. Radiochem. 12 (1970) No. 5, 757–9. Translated fromRadiokhimiya 12 (1970) No. 5, 787–8, see alsoNucl. Sci. Abstr. 26 (1972) No. 1811.
Dzhemardyan, Yu. A., Mikhailov, G. I., Starchik, L. P.: Use of nuclear reactions with low-energy protons for determination of light element content.Zavodsk. Lab. 37 (1971) 555–60 (in Russian).
Egiazarov, B. G., Zyubko, V. A., Selyutin, R. P.: Selection of the analytical method in instrumental activation analysis using EVM by calculating the sensitivity and statistical precision of the measurement.Sb. Yadernofiz. metody analiza veshchestva Atomizdat, Moskva, 1971, 346–51 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 34.
Emmerich, R., Mrowec, S. (Inst. of Nucl. Techn., Acad. of Mining and Metallurgy, Cracow; Inst. of Solid State Chem., Acad. of Mining and Metallurgy, Cracow, Poland): The use of18O isotope in studying the mechanism of high temperature oxidation of iron—chromium alloys.Bull. Acad. Pol. Sci., Ser. Sci. Chim. 19 (1971) 569–76, see alsoNucl. Sci. Abstr. Poland 7 (1971) No. 852.
Evans, H. E., Watson, W. R. (Central Electricity Generating Board, Berkeley, USA): Solubility of copper in sodium RD/B/N-1901, 1971, 9 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 37924.
Evdokimov, Yu. B., Ivanov, A. S., Komorin, L. V., Solnykov, A. I., Surovtsev, M. T., Fedotov, M. T., Tsepakin, S. G.: Industrial neutron generators for activation analysis.Sb. Yadernofiz. metody ana-liza veshchestva, Atomizdat, Moskva, 1971, 269–76 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 41.
Fanger, U., Heck, D., Martens, P., Pepelnik, R., Schmidt, H. (Kernforschungszentrum, Inst. Angewandte Kernphys., Karlsruhe, FRG): Determination of tungsten content of natural stone samples from scheelite deposits with the help of prompt (n, γ) analysis. KFK-1404, June 1971, 18 p. (in German), see alsoNucl. Sci. Abstr. 26 (1972) No. 33.
Faure-Mazagol, L. (Lyon Univ., Inst. de Physique Nucléaire, France): Charged-particle activation determination of oxygen in Mo, Pb and Pb−Sb alloys.Thesis. LYCEN-7136, June 1971, 54 p. (in French), see alsoNucl. Sci. Abstr. 26 (1972) No. 35.
Gage, S. J., Atkinson, G. D. Jr., Bouchey, G. D. (Univ. of Texas, Austin, USA): Cyclic neutron activation analysis with a252Cf neutron source.Trans. Amer. Nucl. Soc. 14 (1971) 512–5. FromJoint Meeting of the American Nuclear Society; Miami Beach, Fla., 17 Oct. 1971, CONF-711009, see alsoNucl. Sci. Abstr. 26 (1972) No. 1803.
Gambaryan, R. G., Kazachenkov, Yu. N., Shpanov, A. P., Shtan, A. S.: Development and investigation of neutron resonance method for the enhancement of the selectivity of elemental analysis of substances.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 132–144 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 49.
Gerrard, M.: Recent DID radiometric-technique developments.Isotop. Radiat. Technol. 9 (1971) 31–40.
Gerrard, M., McKinney, F. E.: Activation analysis and sulfur-isotope-ratio techniques for oil-slick identification.Isotop. Radiat. Technol. 8 (1971) 379–81.
Gillette, R. K. (Mound Lab., Miamisburg, Ohio, USA): Computer program for the analysis of neutron activation data: gamma spectrum smoothing and sample calculation. MLM-1848, 30 Sep. 1971, 41 p., see alsoNucl. Sci. Abstr. 26 (1972) No. 36.
Gilmore, G. R., Goodwin, B. L. (Activation Analysis Service, Univ. Res. Reactor, Risley, Warrington, U. K.): Neutron activation analysis for aluminium in bone samples.Radiochem. Radioanal. Letters 10 (1972) 217–22.
Godfrey, K. V., Downs, W. E.: Neutron activation and on-stream analysis in the mineral industries using SHERLOCK III.Isotop. Radiat. Technol. 9 (1971) 23–30.
Grass, F., Kittl, R. (Technische Hochschule, Vienna, Austria): Quantitative determination of rare earths in meteorites by means of high voltage electrophoresis.Mikrochim. Acta 2 (1971) 371–9 (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 41776.
Greenwood, R. C. (Idaho Nucl. Corp., Idaho Falls, USA): Prompt-neutron activation analysis with a252Cf source.Trans. Amer. Nucl. Soc. 14 (1971) 932. FromJoint Meeting of the American Nuclear Society; Miami Beach, Fla., 17 Oct. 1971, CONF-711009, see alsoNucl. Sci. Abstr. 26 (1972) No. 1808.
Gruber, E., Sorantin, H. (Österreichische Studiengesellschaft für Atomenergie, Seibersdorf, Austria): Activation analytical studies of standarized iron alloys. Part 1. Quantitative vanadium determination and qualitative certificate testing.Mikrochim. Acta 2 (1971) 262–6 (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 41774.
Haller, W. A. (Washington State Univ., Pullman, Wash., USA): Purely instrumental approach to the multielemental analysis of biological tissue.Thesis, 1971, 101 p., see alsoNucl. Sci. Abstr. 26 (1972) No. 41.
Harrison, P. R., Rahn, K. A., Dams, R. (Univ. of Michigan, Ann Arbor, USA): Areawide trace metal concentrations measured by multielement neutron activation analysis. A one day study in Northwest Indiana.J. Air Pollut. Contr. Ass. 21 (1971) No. 9, 563–70, see alsoNucl. Sci. Abstr. 26 (1972) No. 39.
Harward, M. E. (Dept. of Soils, Oregon State Univ., Corvallis, USA): Physicochemical properties of soils from volcanic ash.Progress Report, September 1, 1970–May 31, 1971, RLO-2227-T-9-1, 1971, see alsoNucl. Sci. Abstr. 25 (1971) No. 34724.
Hegedüs, D., Noszticiusz, Z., Erdey, L.: Determination of copper traces in luminescence zinc sulphide by neutron activation analysis.Magy. Kém. Lapja 26 (1971) 344–7 (in Hungarian), see alsoRef. Zh. Khim. 4 (1972) No. G 207.
Henke, G., Fitzek, A. (Westfaelische Wilhelms-Univ., Münster, FRG): Detection of thallium poisonings by means of neutron activation analysis.Arch. Toxikol. 27 (1971) 266–72 (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 48478.
Hermann, F., Kiels, W., Kluger, F., Hecht, F. (Vienna Univ., Austria): Neutron activation analytical determination of a number of trace elements in meteoritic phases.Mikrochim. Acta 2 (1971) 225–40 (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 41773.
Hislop, J. S., Williams, D. R. (Atomic Energy Res. Establishment, Harwell, England): Use of non-destructive γ-activation for the analysis of rock and biological materials. AERE-R-6910 Sep. 1971, 24 p., see alsoNucl. Sci. Abstr. 26 (1972) No. 6489.
Hoffman, C. M., Pro, M. J. (Dept. of the Treasury, National Office Lab., Washington, D. C., USA): Practical application and limitations of forensic activation analysis.Meeting on Neutron Sources and Applications; Augusta, Ga., 18 Apr. 1971. CONF-710402-(Vol. 2). p. II.67-70, see alsoNucl. Sci. Abstr. 25 (1971) No. 48464.
Homes, A., Morgan, A., Sadalls, F. J. (Atomic Energy Res. Establishment, UK AEA Res. Group, Harwell, England): Determination of iron, chromium, cobalt, nickel and scandium in asbestos by neutron activation analysis.Amer. Ind. Hyg. Ass. J. 32 (1971) 281–6, see alsoNucl. Sci. Abstr. 25 (1971) No. 37331.
Ivanov, I. N., Filippov, V. V., Shtan, A. S.: Optimation of time-parameters and processing of the results of the activation analysis using EVM.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 351–6 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 35.
Ivanov, I. N., Kandaurov, V. A., Shtan, A. S., Mamonov, E. I., Ivanets, V. N., Talanov, B. P.: Universal system of automatic activation analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 329–38 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 33.
Ivanov, I. N., Markun, N. Yu., Shtan, A. S.: Neutron-activation analysis of bauxite and nepheline.Tr. Vses. Nauch.-Issled. Inst. Radiats. Tekh. No. 4 (1970) 186–93 (in Russian), see alsoNucl. Sci. Abstr. 26 (1972) No. 6518.
Janeković, A., Strohal, P.: Neutron activation analysis.Kem. u. Ind. 20 (1971) No. 8, 391–404 (in Serbian), see alsoRef. Zh. Khim. 2 (1972) No. G 49.
Janeković, A., Strohal, P.: Neutron activation analysis. Part 5. Determination of trace elements.Kem. u. Ind. 20 (1971) No. 9, 451–8 (in Serbian), see alsoRef. Zh. Khim. 10 (1972) No. G 43.
Jenkins, R., Vries, J. L. de (Philips Res. Labs., Eindhoven, The Netherlands): Isotope excitation in on-stream analysis.Can. Spectrosc. 16 (1971) 54–9, see alsoNucl. Sci. Abstr. 25 (1971) No. 37335.
Kartashev, E. R., Chulkin, V. L., Shtan, A. S.: Automatic activation analysis of liquid streams.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 150–6 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. D 42.
Kato, M., Sato, O. (Tokyo Univ., Japan): Application of radioisotopes and radiation technology to chemical analysis.Seisan Kenkyu, 23 (1971) No. 2, 59–66 (in Japanese), see alsoNucl. Sci. Abstr. 26 (1972) No. 30.
Kazakevich, V. I., Polistanskii, Yu. G., Babikova, Yu. F., Minaev, V. M. (Inst. of Engng Phys., Moscow, USSR): Activation—radioautographic study of distribution of impurities in thermoelectric semiconductors utilizing the reactions23Nd(d, p)24Na,7Li(p, n)7Be and12C(d, n)13N.Zavodsk. Lab. 37 (1971) 805–906 (in Russian).
Khamidova, R., Abdullaev, A. A., Khatamov, Sh.: Application of neutron activation analysis in hydrochemical surveying of sulfide quarries.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 41–43 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 236.
Khatamov, Sh., Lobanov, E. M., Kist, A. A.: Activation analysis in biogeochemical survey of useful minerals.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 41, see alsoRef. Zh. Khim., 6 (1972) No. G 115.
Khudaibergenov, U., Ganiev, A. G., Karimkulov, D.: Neutron activation method for the determination of gold in ores using chinoline.Sb. Analiz. i tekhnol. blagorod. met., Metallurgiya, Moskva, 1971, 302–5 (in Russian), see alsoRef. Zh. Khim. 6 (1972) No. G 117.
Kiryanov, G. I.: Sealed tube neutron generators for industrial and scientific investigations.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 279–87 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 40.
Kiryanov, G. I., Chekhonin, A. N.: Investigation of the output parameters of the impulse generator NGI-5.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 288–94 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 44.
Kiryanov, G. I., Bobrov-Egorov, N. N.: Investigation of the influence of the position of generator targets on the flux distribution of neutrons in the zone of the sample.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 295–301 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 43.
Kodiri, S., Starchik, L. P.: Activation analysis of strontium by γ-γ′ reaction.Izotopy SSSR, No. 19 (1971) 6–8 (in Russian), see alsoNucl. Sci. Abstr. 25 (1971) No. 48487.
Kopta, S., Petryna, T., Stroński, I. (Inst. of Nucl. Phys., Cracow, Poland): Production of carrier-free radioisotopes from targets irradiated with deuterons or alpha particles in the U 120 Cracow cyclotron. Part 3. Preparation of radioisotopes of terbium, dysprosium and lutetium from targets of europium, gadolinium and thulium. INP-770/PL, 1971, 12 p., see alsoNucl. Sci. Abstr. Poland 7 (1971) No. 763.
Kotelnikov, L. A., Kuznetsov, R. A.: Photoactivation analysis of Sb-P exchanger.Vestn. Leningradsk. Univ., Fiz. Khim. 25 (1970) No. 4, 137–40 (in Russian).
Krasnov, N. N., Dmitriev, P. P., Konstantinov, I. O.: Comparison of the methods for the determination of carbon and oxygen by activation analysis with various charged particles.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat.Moskva, 1971, 173–80 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 159.
Krizhenkova, N. A., Kist, A. A., Lobanov, E. M., Talanin, Yu. N., Sattarov, M.: On the precision of activation analysis of large samples using neutron generators.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 301–3 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 43.
Kruger, P.: Principles of activation analysis. John Wiley and Sons, Inc., New York, 1971, 529 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 39469.
Krutikov, M. G., Drynkin, V. I., Leipunskaya, D. I., Putyatina, N. D., Rudyk, Yu. M., Sokolov, G. V.: Elemental analysis of ore samples by spectrometric measurement of gamma rays from radiation capture of neutrons with weak isotope sources.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 124–30 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 128.
Kubato, M., Amano, H. (Japan Atomic Energy Res. Inst., Tokyo, Japan): Impurities in processed radioisotopes produced by the (n,γ) reaction: purity of169Yb. JAERI-Memo-4279, 1971, 15 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 34669.
Kubato, M., Amamo, H. (Japan Atomic Energy Res. Inst., Tokyo, Japan): Impurities in processed radiosiotopes produced by the (n,γ) reaction: purity of167Tb. JAERI-Memo-4280, 1971, 16 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 34670.
Kuleff, I., Todorovsky, D.: On the nondestructive neutron activation determination of uranium by the 106 keV gamma peak of neptunium-239. Part 1. The effect of Th, Ta, Pt, Ru, Zn, Ba.Z. Anal. Chem. 257 (1971) 23–8.
Kuusi, J.: Use of radioisotopic neutron sources for process-control activation analysis.Isotopes Radiat. Technol. 9 (1971) 48–53.
Kuznetsov, R. A.: Analytical possibilities of a betatron with intrachamber irradiation. Part 1. The elements H to Br.Sov. Radiochem. 13 (1970) 685–7, Translated fromRadiokhimiya 12 (1970) 908–10, see alsoNucl. Sci. Abstr. 26 (1972) No. 1810.
Kuznetsov, V. I., Fishtein, M. A., Rozbash, K. Ya.: Equipment for the determination of non-ferrous metals in ores and products by nuclear physical methods.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 427 (in Russian) see alsoRef. Zh. Khim. 7 (1972) No. D 39.
Lambrev, V. G., Matrosov, A. G.: Determination of chromium traces by neutron activation.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 39 (in Russian), see alsoRef. Zh. Khim. 3 (1972) No. G 159.
Lambrev, V. G., Yazikov, I. F., Lebedev, V. A.: Application of pre-extraction for the concentration of the traces to be determined by radioactivation analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 39 (in Russian), see alsoRef. Zh. Khim. 3 (1972) No. G 162.
Lambrev, V. G., Rodin, N. N., Yazikov, I. F., Nekrasov, V. V., Dembrovskii, M. A., Krasivichev, V. V.: Neutron activation analysis of semiconductor materials.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 90–9 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 181.
Larrabee, G. B., Keenan, J. A.: Neutron activation analysis of epitaxial silicon.J. Electrochem. Soc. 118 (1971) 1351–5, see alsoRef. Zh. Khim. 4 (1972) No. G 206.
Lavrukhina, A. K., Kolsov, G. M., Szabó, E., Kelen, E., Csajka, V. K.: The use of instrumental neutron activation method for the determination of macro and some micro elements in meteorites.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 77–90 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 144.
Lawson, B. L. (Phillips Petroleum Co., Idaho Falls, Idaho, USA): Neutron-gamma ray well logging apparatus employing spaced gamma ray detectors.U.S. Patent 3.562.526 (1967–1971), see alsoNucl. Sci. Abstr. 25 (1971) No. 31292.
Liebscher, K. (Glasgow Univ., UK): Comparison of physical evidence by means of trace element analysis.Mikrochim. Acta 2 (1971) 272–84 (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 41775.
Ligeon, E., Bontemps, A. (Commissariat à l'Energie Atomique, Centre d'Etudes Nucléaires, Grenoble, France): Nuclear reaction analysis of boron and oxygen in silicon. CEA-CONF-1853, Aug. 1971, 27 p.Intern. Meeting on Chemical Analysis by Charged Particle Bombardment; Namur, Belgium, 5 Sep. 1971 see alsoNucl. Sci. Abstr. 26 (1972) No. 6490.
Lima, F. W.: Activation analysis.Rev. ideroamer. éduc. quim. 3 (1969) No. 4, 105–10 (in Portuguese), see alsoRef. Zh. Khim. 4 (1972) No. G 55.
Lisovskii, I. P., Smakhtin, L. A.: Determination of oxygen, nitrogen, copper, molybdenum, manganese and chromium in steels using the neutron generator NG-160.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 116–7 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 171.
Lobanov, E. M., Balbakov, Dzh., Shalpykov, A. Sh.: Rapid determination of europium in lithium fluoride monocrystals by neutron activation.Redkollegia Zh. “Izv. Akad Nauk Kirg. SSR”, Frunze, 1971, No. 3344-71 Dep. (in Russian), see alsoRef. Zh. Khim. 6 (1972) No. G 177.
Lombard, S. M., Marlow, K. W., Tanner, J. T. (Naval Res. Lab., Washington, D. C., USA): Determination of antimony in standard rocks by instrumental neutron activation analysis.Anal. Chim. Acta 55 (1971) 13–7, see alsoNucl. Sci. Abstr. 25 (1971) No. 48490.
Lukens, H. R., Schlesinger, H. L. (Gulf Radiation Technology, San Diego, Calif., USA): Statistical interpretation of trace element patterns in paper.Meeting on Neutron Sources and Application; Augusta, Ga., 18 Apr. 1971. CONF-710402-(Vol. 2), p. II.81–6, see alsoNucl. Sci. Abstr. 25 (1971) No. 48467.
Mamonov, E. I., Shtan, A. S.: Logical-structural principles of automatic activation analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 320–1 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 34.
Mamonov, E. I., Egolin, Ya. G., Kulichenkov, A. A., Natutnyk, E. F.: Apparatus for multi-address transport of samples for an activation analysis system.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 321–9 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 36.
Mamuro, T., Matsuda, Y., Mizohata, A., Takeuchi, T., Fujita, A.: Neutron-activation analysis of airborne dust.Annu. Rept. Radiat. Center Osaka Prefect. 11 (1970) 1–13, see alsoNucl. Sci. Abstr. 26 (1972) No. 6501.
Mamuro, T., Matsuda, Y., Mizohata, A., Takeuchi, T., Fujita, A.: Activation analysis of polluted river water.Annu. Rept. Radiat. Center Osaka Prefect. 11 (1970) 14–22, see alsoNucl. Sci. Abstr. 26 (1972) No. 6502.
Mamuro, T., Matsuda, Y., Mizohata, A., Matsunami, T., Takeuchi, T.: Activation analysis of water in the river Yodo.Annu. Rept. Radiat. Center Osaka Prefect. 11 (1970) 23–8, see alsoNucl. Sci. Abstr. 26 (1972) No. 6514.
Margosis, M., Tanner, J. T., Lambert, J. P. F. (Dept. of Health, Education and Welfare, Washington, D. C., USA): Neutron activation analysis of halogens in drugs.Pharm. Sci. 60 (1971) 1550–5, see alsoNucl. Sci. Abstr. 26 (1972) No. 6499.
Martynov, Yu. T., Sulin, V. V., Suslov, V. G., Shorinkov, S. I.: Simultaneous determination of titanium, zirconium and hafnium in titanium-zirconium ore samples by gamma activation.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 215 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 156.
Mazitov, B. S., Muminiv, V. A., Mukhamedov, S., Sultanov, V.: Activation analysis of some light elements by proton reactions.Izv. Akad. Nauk UzSSR, Ser. Fiz.-Mat. Nauk No. 4 (1971) 73–77 (in Russian), see alsoRef. Zh. Khim. 3 (1972) No. G 41.
Mikhailov, G. I., Starchik, L. P.: Determination of the content of light elements from the yield of the radiation capture of protons.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 188–206 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 70.
Miklishanskii, A. Z., Yakovlev, Yu. V.: Determination of rare earth impurities in uranium and europium oxide by activation.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 23–9 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 164.
Mitrofanov, K. P., Plotnikova, M. V., Shpinel, V. S.: Evaluation of the precision of the YaGR method with the use of resonance counters.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 441–8 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. D 5.
Mizohata, A., Mamuro, T.: A simple method for analysis of gamma-ray spectra measured with Ge(Li) detectors.Annu. Rept. Radiat. Center Osaka Prefect. 11 (1970) 29–35, see alsoRef. Zh. Khim. 3 (1972) No. G 42.
Morgan, A., Timbrell, V.: The use of neutron activation analysis to determine the composition of blended samples of asbestos.Intern. J. Appl. Radiation Isotopes 22 (1971) 745–51.
Morrison, G. H. (Cornell Univ., Ithaca, N. Y., USA): Evaluation of lunar elemental analyses.Anal. Chem. 43 (1971) 22A-31A, see alsoNucl. Sci. Abstr. 25 (1971) No. 41714.
Muench, E. (Zentralabteilung Forschungsreaktoren, Kernforschungsanlage, Jülich, G.m.b.H., FRG): Burnup determination through irreversible of activable isotopes with fuel. JUL-712-RE, 1970 101 p. (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 37318.
Nadkarni, R. A., Haldar, B. C. (Inorg. and Nucl. Chem. Lab., Inst. of Sci., Bombay-32, India): Determination of molybdenum in steels by neutron activation and substoichiometric extraction with crystal violet.Radiochem. Radioanal. Letters 10 (1972) 183–9.
Nagatsuka, S., Suzuki, H., Nakajima, K.: Activation analysis of lanthanide elements in natural water.Radioisotopes (Tokyo) 20 (1971) 305–9.
Nikanorov, G. S., Samoilenko, Yu. N., Chulyakov, A. S.: Neutron activation determination of gold and rhenium to geochemical investigations.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 42–6 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 129.
Nikolaenko, O. K., Shtan, A. S.: Development and investigation of a rapid method for elemental analysis using fast neutrons.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 110–6 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 161.
Nikolaenko, O. K., Shtan, A. S.: Determination of low oxygen contents in metals by activation with 14-MeV neutrons.Tr. Vses. Nauch.-Issled. Inst. Radiats. Tekhn. No. 4 (1970) 183–6 (in Russian), see alsoNucl. Sci. Abstr. 26 (1972) No. 6517.
Nishinuura, S. (Kyoto Univ., Japan): Fission track dating of archaeological materials from Japan.Nature (London) 230 (1971) 242–3, see alsoNucl. Sci. Abstr. 25 (1971) No. 32078.
Noakes, J. E., Smithwick, G. A., Kirst, A., Jr., Harding, J. L. (Georgia Univ., Athens, Greece; Westinghouse Ocean Res. Lab., San Diego, Calif.; Oceanonics, Inc., Houston, Tex., USA): Undersea mineral analysis with252Cf.Meeting on Neutron Sources and Applications; Augusta, Ga., 18 Apr. 1971. CONF-710402-(Vol. 3), p. III.7–19, see alsoNucl. Sci. Abstr. 25 (1971) No. 48468.
Norton, E. F., Stoenner, R. W. (Brookhaven National Lab., Upton, N. Y., USA): Neutron activation method for the determination of thorium in rocks and minerals using the 22-minute233Th activity.Anal. Chim. Acta 55 (1971) 1–11, see alsoNucl. Sci. Abstr. 25 (1971) No. 48491.
Oda, T.: Activation determination of rare earth elements in hot spring waters using ion exchange separation.Onsan Kagaku, J. Balneol. Soc. Japan 21 (1970) No. 1, 7–16 (in Japanese), see alsoRef. Zh. Khim. 4 (1972) No. G 240.
Oda, T.: Activation determination of rare earth elements in hot spring waters using Ge(Li) detectors and geochemical study of these elements.Onsan Kagaku, J. Balneol. Soc. Japan 21 (1970) No. 1, 17–25 (in Japanese), see alsoRef. Zh. Khim. 4 (1972) No. G 241.
Ohno, S., Asprer, G. A., Hongo, S., Suzuki, M., Watanabe, S. (National Inst. of Radiological Sci., Chiba, Japan): Determination of europium in biological materials by neutron activation analysis.Radioisotopes (Tokyo) 20 (1971) 224–7, see alsoNucl. Sci. Abstr. 25 (1971) No. 37332.
Orvini, E. (Centro di Radiochim. e. Analisi per Attivazione de C.N.R. Inst. de Chim. Generale e Inorganica, Univ. di Pavia, 27100 Pavia, Italy): Determination of iodine by neutron activation analysis in CdS, CdTe, GaSe and GaS doped crystals.Radiochem. Radioanal. Letters 10 (1972) 145–9.
Parsignault, D. R., Wilson, H. H., Mineski, R., Blatt, S. L. (American Sci. and Engng., Inc., Cambridge, Mass.; Dept. of Phys., Ohio State Univ., Columbus): Prompt gamma-ray coal analysis system.Meeting on Neutron Sources and Applications; Augusta, Ga., 18 Apr. 1971. CONF-710402-(Vol. 3), p. IV.40–6, see alsoNucl. Sci. Abstr. 25 (1971) No. 48474.
Petrosyants, A. A., Chernobylskii, A. G., Novikov, L. A., Garzanov, E. G., Biryukov, V. F.: Procedure for processing of gamma spectra accelerating the quantitative determination of substances in the neutron activation analysis.Sb. Metod izotop. indikatorov v nauchn. issled. i v prom. proiz.-ve, Atomizdat, Moscow, 1971, 185–91 (in Russian), see alsoRef. Zh. Khim. 11 (1972) No. G 41.
Pillay, K. K. S., Thomas, C. C. Jr., Hyche, C. M. (Western New York Nucl. Res. Center, Inc., Buffalo, USA): Neutron activation analysis of inorganic constituents of airborne particulates.Nucl. Technol. 10 (1971) 224–31.
Pillay, K. K. S., Thomas, C. C. Jr., Mahoney, G. F. (Western New York Nucl. Res. Center, Inc., Buffalo, USA): Role of environmental contamination in criminalistics: a case history.Meeting on Neutron Sources and Applications; Augusta, Ga., 18 Apr. 1971, CONF-710402-(Vol. 2), p.II. 71–6, see alsoNucl. Sci. Abstr. 25 (1971) No. 48465.
Pleshakova, G. P., Saunkin, O. F., Sukhov, G. V., Shmanenkova, G. I.: Determination of rare earth impurities in rare earth base by neutron activation.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 14–22 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 174.
Pretorius R. (Southern Univ., Nucl. Inst., P. O. Box 17, Faure, C. P., South Africa): Prompt activation analysis of light elements by coincident measurement of complementary particles.Radiochem. Radioanal. Letters 10 (1972) 297–307.
Proházka, H., Jílek, R. (CAZ, Inst. of Veterinary Medical Res., Brno, Czechoslovakia): Determination of low activities of U—Ra-series elements by liquid-scintillation spectrometer.Jaderná Energ. 17 (1971) 117–20.
Pronman, I. M., Andreev, A. V.: Solution of some methodological problems of the determination of oxygen in high purity materials by neutron activation.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 100–10 (in Russian), see alsoRef. Zh. Khim. 7 (1972) G 180.
Pronman, I. M., Kudinov, V. S.: Determination of carbon, nitrogen and oxygen in rare metals and semiconductors by gamma activation with a sensitivity of 10−4–10−5%.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 222–31 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 157.
Pronman, I. M., Kudinov, B. S., Kaplan, B. Ya., Kuchinskaya, O. I., Uritskaya, T. P.: Radiochemical separation of carbon from gallium, gallium arsenide and semi-conductor silicon for gamma-activation analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 231–2 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 204.
Quaglia, L., Weber, G. (Liège Univ., Belgium): Behaviour of surface carbon during its determination by nuclear reactions.Bull. Soc. Roy. Sci. Liège 40 (1971) 54–67 (in French), see alsoNucl. Sci. Abstr. 25 (1971) No. 41765.
Quittner, P.: Computer evaluation of scintillation and semiconductor detector gamma-ray spectra. Akadémiai Kiadó, Budapest, 1972, 110 p.
Rahn, K. A. (Dept. of Meteorology and Oceanography, Michigan Univ., Ann Arbor, USA): Sources of trace elements in aerosols: an approach to clean air, COO-1705-9, 1971, 309 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 39440.
Rakovskii, E. E., Berenshtein, L. E., Shilin, N. L., Serebryanyi, B. L.: Radioactivation method for the determination of gold and its application to some problems of the geochemistry of gold.Sb. Analiz i tekhnol. blagorod. met., Metallurgiya, Moskva, 1971, 305–6 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 118.
Rakovskii, E. E., Serebryanyi, B. L., Severin, V. I.: Conditions of substoichiometric determination of small quantities of gold using the isotope dilution method.Sb. Analiz. i tekhnol. blagorod. met., Metallurgiya, Moskva, 1971, 291–5 (in Russian), see alsoRef. Zh. Khim. 6 (1972) No. G 118.
Rakovskii, E. E., Khvostova, V. P., Korenevskaya, N. B., Lyubimova, L. N.: Determination of small quantities of osmium in ores by radioactivation.Sb. Analiz. i tekhnol. blagorod. met., Metallurgiya, Moskva, 1971, 288–91 (in Russian), see alsoRef. Zh. Khim. 6 (1972) No. G 121.
Rausch, H., Salamon, A.: Investigation of some telecommunication materials by high sensitive activation analysis.Távközlési Kut. Int. Közlemény. 14 (1971) No. 4, 65–85 (in Hungarian).
Rengan, K., Ramaniah, M. V.: Determination of235U content in uranium oxide samples using fission product gamma rays. BARC/I-103, 1970, 9 p.
Retief, D. H., Cleaton-Jones, P. E., Turkstra, J., Wet, W. J., de: Quantitative analysis of Sr, Au, Br, Mn and Na in normal human enamel and dentine by neutron activation and high resolution gamma spectrometry.J. Dent. Ass. S. Afr. 26 (1971) 63–9.
Rhodes, J. R.: Radioisotope neutron activation for on-steam process analysis.Meeting on Neutron Sources and Applications, Augusta, Ga., 18 Apr. 1971, CONF-71042-(Vol. 3), p. IV. 1–10.
Ricci, E. (Oak Ridge National Lab., Tenn., USA): Determination of12C,13C isotopic abundances and nitrogen/carbon ratios in biological substances by proton-reaction analysis.Anal. Chem. 43 (1971) 1866–71.
Riekstinya, D. V., Pelekis, L. L.: Determination of Au, Ga and Sb in emitter alloy samples by neutron activation.Izv. Akad. Nauk Latv. SSR, Ser. Fiz. Tekhn. Nauk, No. 4 (1971) 24–6 (in Russian), seeRef. Zh. Khim. 3 (1972) No. G 140.
Roche, M. F., Ross, L. E., Meyer, R. J. (Argonne National Lab., Ill, USA): Determination of oxygen in liquid sodium by proton activation analysis.Trans. Amer. Nucl. Soc. 14 (1971) 617. FromJoint Meeting of the American Nuclear Society, Miami Beach, Fla., 17 Oct. 1971, CONF-711009.
Rodin, N. N., Dembrovskii, M. A.: Possibility of the application of sum-coincidence spectrometry for radiochemical analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 99–100 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 59.
Rolls, A. I. (Atomic Energy Research Establishment, UKAEA Research Group, Harwell, England): Improved electronic arrangement for beryllium monitors, AERER-6308, 1971, 14 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 32288.
Sabbioni, E., Clerici, L., Campagnari, F., Girardi, F., Bartolini, P. (Euratom Joint Research Center, Ispra, Italy): Microdetermination of nucleic acid phosphorus by neutron activation analysis.Biochemistry 10 (1971) 4185–9, see alsoNucl. Sci. Abstr. 26 (1972) No. 6519.
Sanderson, J. R. (British Nuclear Fuels Ltd., Risley, England): Set of numerical subroutines for use with a basic (4k) PDP8-L computer. BNLF-26, 1971, 86 p., see alsoNucl. Sci. Abstr. 26 (1972) No. 32.
Sandru, P., Danis, A. (Inst. of Atomic Physics, Bucharest, Romania): Determination of U and Th impurities in mica by fission track method in order to use this mineral as a detector of heavy particles.Rev. Roum. Phys. 16 (1971) No. 1, 95–103.
Schiller, P., Cook, G. B., Beswick, C. K. (IAEA Lab., Seibersdorf, Austria): Determination of gold by non-destructive activation analysis for purposes of geochemical and geobotanical prospecting.Mikrochim. Acta No. 3 (1971) 420–8, see alsoNucl. Sci. Abstr. 26 (1972) No. 42.
Schreurs, J. W. H., Friedman, A. M., Rokop, D. J., Hair, M. W., Walker, R. M. (Corning Glass Works, N. Y., USA): Calibrated U-Th glasses for neutron dosimetry and determination of uranium and thorium concentration by the fission track method.Radiat. Eff. 7 (1971) 231–3, see alsoNucl. Sci. Abstr. 25 (1971) No. 32280.
Semel, S., Helf, S. (Picatinny Arsenal, Dover, N. J., USA): Use of a sealed tube neutron generator for quality control in explosives by fast neutron activation analysis.Meeting on Neutron Sources and Applications, Augusta, Ga., 18 Apr. 1971, CONF-710402-(Vol. 3), p. IV.11–7, see alsoNucl. Sci. Abstr. 25 (1971) No. 48471.
Senftle, F. E., Philbin, P. W., Sarigianis, P. (Geological Survey, Washington, D. C., USA): Use of252Cf for mineral exploration: comparison with accelerators for in situ neutron activation of silver.Isotopes Radiat. Technol. 7 (1970) 411–8.
Senftle, F. E., Moore, H. D., Leep, D. B., El-Kady, A., Duffey, D. C. (Geological Survey, Washington, D. C., USA): Analytical sensitivities and energies of thermal neutron capture gamma rays. Part 2.Nucl. Instr. Methods 93 (1971) 425–59, see alsoNucl. Sci. Abstr. 25 (1971) No. 37313.
Smith, L. H.: A note on quadratic programming in activation analysis.Operations Res. 18 (1970) 90–9.
Sobolev, E. V., Ilin, V. E., Gilbert, E. N., Lenskaya, S. V., Pronin, V. A., Pelekis, L. L., Mednis, I. V., Moralez, V. M. (Acad. Sci. USSR, Siberian Div., Novosibirsk, Inst. Phys., Riga, USSR): Effect of Al impurities on optical properties of diamond.Zh. Strukturn. Khim., 11 (1970) 1048–52 (in Russian).
Spitsyn, V. I., Mikheev, N. B.: Generators for the production of short-lived radioisotopes.At. Energ. Rev. 9 (1971) No. 4, 787–842, see alsoRef. Zh. Khim. 9 (1972) No. B 730.
Starchik, L. P., Abbosov, O., Abrams, I. A. (Inst. of Phys., Riga, USSR): Activation method for the determination of deuterium using linear accelerator.Latv. PSR Zinat. Akad. Vestis, Fiz. Tekh. Zinat. Ser. No. 2 (1971) 10–2 (in Russian), see alsoNucl. Sci. Abstr. 25 (1971) No. 48476.
Stepanets, O. V., Yakovlev, Yu. V.: Activation analysis of yttrium and yttrium oxide of high purity.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 22–3 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 179.
Stephenson, J. F., Ehmann, W. D. (Univ. of Manitoba, Winnipeg; Univ. of Kentucky, Lexington, Ky., USA): Neutron activation analysis of gold in Archean igneous and metamorphic rocks of the Rice Lake-Beresford Lake area, Southeastern Manitoba.Econ. Geol. 66 (1971) 933–9, see alsoNucl. Sci. Abstr. 26 (1972) No. 6494.
Sterliński, S. Golian, C. (Inst. of Nuclear Research, Warsaw, Poland): The determination of oxygen in steels by 14 MeV neutron activation analysis. INR-1310/ VIII/C, 1971, 40 p. (in Polish), see alsoNucl. Sci. Abstr. Poland 7 (1971) No. 760.
Strizhak, V. I., Rebyuk, K. K.: Neutron generators with mixed deuterium-tritium beams working in impulse and stabile modes.Sb. Yadernofiz. metody analiza veshchsestva, Atomizdat, Moskva, 1971, 276–8 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 42.
Sukhov, G. V., Firsov, V. I.: Quantitative instrumental radioactivation analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 52–60 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 50.
Sukhov, G. V., Firsov, V. I.: Determination of non-ferrous, rare and noble metals in minerals by radioactivation using semiconductor spectrometers.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 61–72 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 125.
Sukhanovskaya, A. I., Shafran, I. G.: Neutron activation method for the analysis of titanium tetrachloride of high purity.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 35–9 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 207.
Sulin, V. V.: Basic results of the establishing and testing of the activation method for the elemental analysis of ore and other samples.Sb. Yadernofiz. metody analiza veshchestva, Atmizdat, Moskva, 1971, 206–14 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 124.
Takeda, K., Fijii, I., Ishihara, M., Muto, H. (Toshiba Research and Development Center, Kanagawa, Japan): Determination of oxygen in aluminium electrolytic baths by a fast-neutron activation method.Anal. Chim. Acta 55 (1971) 19–27, see alsoNucl. Sci. Abstr. 25 (1971) No. 48489.
Takeuchi, T., Hayashi, T., Kusaka, Y.: Automatic analysis of gamma-ray spectra and its application to activation analysis. Part 2.Annu. Rept. Res. React. Inst. Kyoto Univ. 4 (1971) 63–5, see alsoRef. Zh. Khim. 9 (1972) No. G 121.
Talvat, M. (Lyon Univ., Inst. de Phys. Nucléaire, France): Interpretations of parasitic phenomena encountered when determining the oxygen content of silicon by charged particle activation.Thesis, May, 1971, 53 p., LY CEN-7122.
Talyzin, V. M., Leipunskaya, D. I., Smirnov, A. I., Khvostionov, V. E., Savosin, S. I.: Reactor for activation analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 263–9 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 37.
Tarykcheva, N. K., Prudnikov, V. N., Ryazin, P. A.: Photoneutron analyser for the determination of the elemental composition in technological streams.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 250 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 45.
Thomson, B. A., Miller, E. C.: Determination of trace elements in ruby laser crystals by neutron activation analysis.J. Res. Natl. Bur. Stand. A75 (1971) No. 5, 429–33, see alsoRef. Zh. Khim. 12 (1972) No. G 157.
Thomson, S. J., Guinn, V. P. (Dept. of Chem., Glasgow Univ., UK; California Univ., Irvine, USA): Advances in activation analysis (Lenihan, J. M., ed.), Vol. 2. Academic Press, London, 1972, 340 p.
Trombka, J. I., Eller, E. L., Gerard, J. T., Senftle, F., Philbin, P. (Goddard Space Flight Center, Greenbelt, Md., USA): Neutron radioactive capture methods for elemental analysis of extended media.Trans. Amer. Nucl. Soc. 14 (1971) 932–2. FromJoint Meeting of the American Nuclear Society, Miami Beach, Fla., 17 Oct. 1971, CONF-711009, see alsoNucl. Sci. Abstr. 26 (1972) No. 1809.
Tursktra, J., Smith, H. J., De Wet, W. J. Non-destructive activation analysis of six South African standard rock samples utilizing high-resolution gamma spectrometry.J. S. Afr. Chem. Inst. 24 (1971) 113–25, see alsoRef. Zh. Khim. 23 (1971) No. G 117.
Tustanovskii, V. T., Andyushchenko, V. I., Vogelmut, A. A., Pronman, I. M. (State Research and Design Inst. of Rare Metal Industry, Moscow, USSR): Neutron-activation method of fast determination of carbon content.Nucl. Sci. Abstr. 25 (1971) No. 37323.
Upor, E., Hohmann, J.: Determination of rare-earth impurities in yttrium oxide by neutron activation analysis.Proc. 2nd Conf. Appl. Phys. Chem., Veszprém, Hungary, 1971, Vol. 1, Budapest, 1971, 131–4, see alsoRef. Zh. Khim. 4 (1972) No. G 190.
Vakhtin, B. S., Filippov, E. M.: The use of neutron resonance for the determination of some elements.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 144–50 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 71.
Vakhtin, B. S., Filippov, E. M.: Determination of high concentrations of boron by a neutron resonance technique.Zavodsk. Lab. 37 (1971) 461–2 (in Russian).
Van Den Winkel, P. (Paleis der Academeni, Brussels, Belgium): Determination of trace elements in biological materials by neutron activation analysis.Verh. Kon. Vlaam. Acad. Wetensch., Belg., Kl. Wetensch. 32 (1970) No. 114, 189 (in Flemish), see alsoNucl. Sci. Abstr. 25 (1971) No. 48492.
Vasserman, A. M., Chapyzhnikov, B. A., Kunin, L. L.: Separation of short-lived isotope of15O for the determination of oxygen in pure materials by radioactivation.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 232–6 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 158.
Veveris, O. E., Michulis, Y. D., Riekstinya, D. V. (Akad. Nauk Latvijskoi SSR, Inst. Fiziki, Riga, USSR): Neutron activation determination of Cu, Zn and Mn in aluminium using 8-mercaptoquinoline.Latv. PSR Zinat. Akad. Vestis, Fiz. Tekh. Zinat. Ser. No. 1 (1971) 16–8 (in Russian), see alsoNucl. Sci. Abstr. 25 (1971) No. 37324.
Vogt, J. R., Eichor, M. E., Mason, R. E. (Missouri Univ., Columbia, USA): State-wide training and service program in forensic neutron activation analysis.Meeting on Neutron Sources and Applications, Augusta, Ga., 18 Apr. 1971, CONF-710402-(Vol. 2) p. II. 77–80, see alsoNucl. Sci. Abstr. 25 (1971) No. 48466.
Walters, L. D., Winchester, J. W. (Massachusetts Inst. of Tech., Cambridge, USA): Neutron activation analysis of sediments for halogens using Szilard-Chalmers reactions.Anal. Chem. 42 (1971) 1020–5, see alsoNucl. Sci. Abstr. 25 (1971) No. 41763.
Wiggins, P. F., Duffey, D., Senftle, F. E. (Naval Academy, Annapolis, Md., USA): Neutron capture gamma-ray studies of metallurgical and mineral samples using252Cf.Trans. Amer. Nucl. Soc. 14 (1971) 518–20, fromJoint Meeting of the American Nuclear Society, Miami Beach, Fla, 17 Oct. 1971, CONF-711009, see alsoNucl. Sci. Abstr. 26 (1972) No. 1804.
Zaitsev, E. I., Sotskov, Yu., P., Laptev, V. G.: Instrumental activation analysis of rocks.Razv. Ohr. Nedr. 37 (1971) No. 8, 38–42 (in Russian).
Zinner, H., Henkelmann, R., Stärk, H. (Inst. für Radiochemie der Technischen Univ. München, FRG): Rapid determination of tungsten in rocks using183mW.Radiochem. Radioanal. Letters 10 (1972) 191–200.
Zmijewska, W. (Inst. of Nuclear Research, Warsaw, Poland): Activation methods of analysis.Wiad. Chem. 25 (1971) 99–122 (in Polish), see alsoNucl. Sci. Abstr. Poland 7 (1971) No. 380.
Zyubko, V. A., Egiazarov, B. G., Venkov, S. N., Korytko, L. A.: Problems of the elaboration of methods and instruments for the determination of gases by fast neutrons.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 311–20 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 39.
Yakubovich, A. L., Babichenko, S. I., Zaitsev, E. I., Karpinskii, I. P., Prziyagovskii, S. M., Krylov, L. N., Utekhin, A. P.: Unification of instrumentation for the analysis of minerals by complex nuclear-physical methods.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 384–7 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 52.
Analysis by nuclear absorption and scattering
Baldin, S. A., Ioannesyants, L. M.: Development of the instrumentation for the determination of the molybdenum content of solutions and ores in natural layers.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 393 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 49.
Berzin, A. K., Gruzdev, Yu. V., Sulin, V. V.: Practical possibilities of the use of inelastic scattering of gamma quanta for elemental analysis of rocks and ores by the gamma activation method.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 236–44 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 127.
Betin, Yu. P., Kotik, U. I., Pozina, M. I.: Determination of total concentration of rare earth elements in solutions.Zavodsk. Lab. 37 (1971) 294–7 (in Russian).
Charbuciński, J. (Acad. of Mining and Metallurgy, Inst. of Nuclear Techniques, Cracow, Poland): Analysis of a non-spectrometric method for determining the Pb and Zn contents.Nukleonika 15 (1970) 807–14.
Chwaszszewska, J., Dybowsky, K., Sawicka, B., Tys, J.: (Inst. of Nuclear Research, Warsaw, Poland): Application of semiconductor detectors for X-ray fluorescent analysis. INR-1274, 1971, 14 p. (in Polish), see alsoNucl. Sci. Abstr. 25 (1971) No. 32211.
Dolenko, A. V., Zemlerub, L. A., Raikhman, E. M., Tochin, N. I.: Automation of the apparatus YaGR for the analysis of tin.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 467–76 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 56.
Fadeev, Yu. G., Sychev, G. A.: Neutron analysers for chemical industry.Sb. Yader. nofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 304–11 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 38.
Fritsche, A. E., Burson, Z. G. (EG and G, Inc., Las Vegas, Nev., USA): Snow water equivalent prediction by measuring natural gamma attenuation from aircraft.Trans. Amer. Nucl. Soc. 14 (1971) 67–8.17th Annual Meeting of the American Nuclear Society, Boston, Mass., 13 June 1971, CONF-710606, 1971.
Glazov, V. M.: Enhancement of the sensitivity of the analysis by beta-ray back-scattering.Tr. po Khim. i Khim. Tekhnol. (Gorkii) 2 (1970) 110–1 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 54.
Goldanskii, V. I., Dolenko, A. V., Agiazarov, B. G., Zaporozhets, V. M., Isakov, L. M., Ratnikov, V. M.: Experiences with the application of the apparatus MAK-1.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 476–85 (in Russian), see alsoRef. Zh. Khim. 4 (1971) No. D 55.
Goldanskii, V. I.: Modern trends in nuclear chemistry.Fiz. Szemle 21 (1971) 329–37 (in Hungarian), see alsoRef. Zh. Khim. 11 (1972) No. B 797.
Harrar, J. E. (Comp.) (Lawrence Radiation Lab., California Univ., Livermore, USA): 1970 Analytical Chemistry Annual Report, UCRL-50006-71, 1971, 69 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 37260.
Hose Roig, Huan Meitin, Durdes Moran, Verkhovskii, B. I., Meltser, L. V.: Investigation of a new method for the selection of analytical lines in non-dispersive X-ray analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 415–27 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 138.
Ivanov, N. I., Velyus, L. M. (Mining and Metallurgical Inst., Magnitogorsk, USSR): Precise analysis based on beta-particle back-scattering.Zavodsk. Lab. 37 (1971) 300–2 (in Russian).
Ivashchenko, G. A., Starchik, L. P.: The use of the method of proton recoil for the determination of moisture content of concentrates.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 166–73 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 135.
Jolly, R. K., White, H. B. Jr. (Michigan State Univ., East Lansing, USA): Elemental analysis by elastic scattering.Nucl. Instr. Methods 97 (1971) 299–307, see alsoNucl. Sci. Abstr. 26 (1972) No. 6500.
Kirichenko, N. M.: Improvement of the photoneutron method for the analysis of beryllium ores.Sb. Yadernofiz. metody analyza veshchestva, Atomizdat, Moskva, 1971, 250–1 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 153.
Kotler, N. I., Nikitin, F. V.: Automation of radioisotope X-ray fluorescence analysers for powder samples.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 391–2 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 53.
Malakhov, Kh. M. (Mining Inst., Krivoi Rog, USSR): Different absorption of gamma rays by the Krivbas ferruginous rocks and ores as a function of their iron content.Dopovidi Akad. Nauk Ukr. RSR Ser. A, Fiz.-Tekhn.-Mat. Nauk. 33 (1971) 663–6 (in Ukrainian).
Mamikonyan, S. V., Kozlov, O. V., Martishchenko, L. G.: Investigation of detectors and radiation sources for roentgenoradiometric analysis.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 397–404 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 50.
Mamikonyan, S. V., Kozlov, O. V., Martishchenko, L. T., Sabitskaya, A. P.: Instrumentation and methods for the analysis of samples for iron and copper.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 391–2 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 48.
Nikitin, V. N., Obolentsev, L. A., Sidorov, V. A.: On the possibility of the determination of silver by a roentgeno-radiometric method.Sb. Analiz. i tekhnol. blagorod. met., Metallurgiya, Moskva, 1971, 308–10 (in Russian), see alsoRef. Zh. Khim. 3 (1972) No. G 62.
Nováková, O., Slezák, V. (TESLA, Přemyšlení, Czechoslovakia): Radiometric moisture and density measurement using a single detector.Tesla Electronics 4 (1971) No. 1, 16–24, see alsoNucl. Sci. Abstr. Czech. 3 (1971) No. 0644.
Ostapenko, V. F., Shmonin, L. I., Cherevko, V. I., Enker, M. B.: Absorptiometric determination of lead in concentrates and products of a dressing plant and antimony in electrolytes.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 255–9 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 133.
Shenberg, C., Amiel, S. (Soreq Nuclear Research Centre, Yavne, Israel): Analytical significance peaks and peak ratios in X-ray fluorescence analysis using a high resolution semiconductor detector. Analysis of uranium solutions by X-ray spectrometry.Anal. Chem. 43 (1971) 1025–30, see alsoNucl. Sci. Abstr. 25 (1971) No. 41733.
Shmonin, L. J., Gorelkinskaya, S. I., Mager, E. V., Ostapenko, V. F., Kamenskii, Yu. V.: Roentgeno-radiometric determination of the zinc, iron and copper content in the conditions of polymetallic mines.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 393–7 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 134.
Smirnov, V. N., Ushakova, M. I., Novikov, A. M.: Determination of molybdenum in copper-molybdenum ores, products and concentrates by roentgeno-radiometric method using125mTe radiation source.Sb. nauchn. tr. NII tsvet. met. No. 34 (1971) 125–30 (in Russian), see alsoRef. Zh. Khim. 5 (1972) No. G 136.
Smirnov, V. N., Ushakova, M. I.: Analysis of products in processing of coppermolybdenum ores by fluorescence radiometric methods.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 383 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. G 154.
Sowerby, B. D. (Australian Atomic Energy Commission, Sutherland, Australia): New method of element analysis using nuclear resonance scattering of gamma rays.Nucl. Instr. Methods 94 (1971) 45–51, see alsoNucl. Sci. Abstr. 25 (1971) No. 37327.
Turkadze, G. G., Musaev, N. M.: Determination of Fe in silicate rocks and alumosilicates by roentgeno-radiometric method.Tr. Kavkaz. Inst. Mineraln. Syrya 9 (1971) 409–12 (in Russian), see alsoRef. Zh. Khim. 9 (1971) No. G 114.
Vander, I. Z., Gerling, V. E., Smirnov, V. N. (Agrophysical Sci. Res. Inst., Leningrad, USSR): Determination of light elements in clays, soils and rocks by isotopic X-ray fluorescence technique.Zavodsk. Lab. 37 (1971) 162–6 (in Russian).
Varga S.: Radionuclide X-ray fluorescence analysis. Part 2. Detection of X-ray fluorescent radiation excited by nuclear radiation.Chem. Listy 65 (1971) 28–44 (in Czech), see alsoNucl. Sci. Abstr. 25 (1971) No. 26175.
Veitz, B. N., Grigalis, V. Ya., Lisin, Yu. D., Taksar, I. M.: Radioisotope method for the determination of the quantity of the residual austenite in steels.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 456–62 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 151.
Yakubovich, A. L., Przhiyalgovskii, S. M., Roshchina, I. A.: Roentgeno-radiometric analysis of light element (Z=13–22).Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 377–82 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 126.
Yakubovich, A. L., Przhiyalgovskii, S. M.: Roentgeno-radiometric method and instrumentation for the rapid determination of the iron group elements.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971 364–70 (in Russian), see alsoRef. Zh. Khim. 7 (1972) No. G 137.
Yakubovich, A. L.: Present status and perspective of the development of roentgenoradiometric methods.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 356–64 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 46.
Yakubovich, A. L., Babichenko, S. M., Zaitsev, E. M., Karpinskii, I. P., Brilyakov, G. I., Utekhin, A. P.: Roentgeno-radiometric analyser for the determination of elemental composition of ores and its products without sampling.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 388–91 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 47.
3. Isotope dilution analysis
Beronius, P., Gabrielsson, A. B.: Microgram determination of ionine by means of isotopic exchange reactions and by electrochemical isotopic dilution analysis.Proc. 2nd Conf. Appl. Chem., Veszprém, Hungary, Vol. 1, Budapest, 1971, 123–9, see alsoRef. Zh. Khim. 4 (1972) No. G 142.
Kelleher, Ph. C., Howard, Ch. B., Smith, C. J. (Univ. of Vermont Coll. of Med., Burlington, Vt., USA): Quantitative determination of glucosamine by column chromatography and radioisotope dilution.Anal. Biochem. 39 (1971) 251–7.
Saksonova, L. N., Maksimov, D. I., Burtsev, V. T. (Inst. of Metallurgy, Moscow, USSR): Physico-chemical processes during the determination of oxygen in metals by the isotope dilution method. Part 1. A study of the kinetics of gas liberation.Zh. Analit. Khim. 26 (1971) 1360–5 (in Russian), see alsoNucl. Sci. Abstr. 25 (1971) No. 48452.
Sparagana, M. (Veterans Administration. Hospital, Hines, Ill., USA; Loyola Univ, Maywood, Ill., USA): Rapid double-isotope dilution derivative assay of plasma testosterone.J. Nucl. Med. 12 (1971) 253–6, see alsoNucl. Sci. Abstr. 25 (1971) No. 37841.
4. Instrumentation, analysis by activity measurement
Adamec, V., Muzikář, V. (Development Plant of the Czechoslovak Uranium Industry, Kamenná, Czechoslovakia): Radiometric sorting of uranium ores in moving tubs.Symp. “The Mining Příbram in Science and Technique 1970”,Pribram, Czechoslovakia, CONF-14-Section Applied Geophysics, 21 p. (in Czech), see alsoNucl. Sci. Abstr. Czech. 3 (1971) No. 0540.
Adamec, V., Hrázský, J. (Development Plant of the Czechoslovak Uranium Industry, Kamenná, Czechoslovakia): Automation of piece and batch analyses of uranium extracted ore.Symp. “The Mining Příbram in Science and Technique 1970”, Příbram, Czechoslovakia, CONF-14-Section Applied Geophysics, 17 p. (in Czech), see alsoNucl. Sci. Abstr. Czech. 3 (1971) No. 0651.
Alter, H. W. (General Electric Co.): System for assaying solution containing alphaemitting isotopes using track-registration material.US Patent 3.569.703 (1966–1971), see alsoNucl. Sci. Abstr. 25 (1971) No. 37311.
Anon. (Beckman Instruments, Inc., Fullerton, Tex. USA): Automatic quench compensation for liquid scintillation counting system,British Patent 1.226.834 (1967–1971), see alsoNucl. Sci. Abstr. 25 (1971) No. 34912.
Bell, R. O. (Tyco Labs., Waltham, Mass., USA): Calculation of gamma-ray pulse height spectrum in a semiconductor detector in the presence of charge carrier trapping.Nucl. Instr. Methods 93 (1971) 341–8, see alsoNucl. Sci. Abstr. 25 (1971) No. 34907.
Brodzinski, R. L. (Battelle Pacific Northwest Labs., Richland, Wash., USA): Measurement of radiation exposure of astronauts by radiochemical techniques.Quarterly Research Report to the NASA Manned Spacecraft Center, April 5, 1971–July 4, 1971. BNWL-1183-9, 15 July 1971, 16 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 47461.
Cooper, J. A. (Pacific Northwest Lab., Battelle-Northwest, Richland, Wash., USA): Radioanalytical applications of gamma-gamma coincidence techniques with lithium-drifted germanium detectors.Anal. Chem. 43 (1971) 838–45, see alsoNucl. Sci. Abstr. 25 (1971) No. 42113.
Debertin, K. (Physikalisch-Technische Bundesanstalt, Brunswick, FRG): Relative measurement of activity with Fe(Li) detectors.Atomkernenergie 17 (1971) 97–102 (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 26191.
Egiazarov, B. G., Isakov, L. M., Shamov, A. I.: Development of units for gamma resonance spectrometry instrumentation.Sb. Yadernofiz. metody analiza veshchestva, Atomizdat, Moskva, 1971, 485–90 (in Russian), see alsoRef. Zh. Khim. 4 (1972) No. D 4.
Frank, R. B., Hanz, G. J. (Nuclear-Chicago Corp., Des Plaines, Ill., USA): Programming apparatus for an automatic liquid
Gibson, J. A. B., Lally, A. E. (Atomic Energy, Research Establishment, Harwell, England): Liquid scintillation counting as an analytical tool.Analyst 96 (1971) 681–8, see alsoNucl. Sci. Abstr. 26 (1972) No. 6484.
Gusev, A. A.: On the determination of concentrations of radioactive gases by means of a cylindrical counter arranged in a finite volume.At. Energ. (USSR) 30 (1971) 314–6 (in Russian).
Hejtman, J. (Development Plant of the Czechoslovak Uranium Industry, Kamenná, Czechoslovakia): Principles of continuous radiometric sorting of uranium ores.Symp. “The Mining Příbram in Science and Technique 1970”Příbram, Czechoslovakia. CONF-14-Section Applied Geophysics, 16 p. (in Czech), see alsoNucl. Sci. Abstr. Czech. 3 (1971) No. 0539.
Hughes, M. W., Holmes, J. W. (Commonwealth Sci. and Ind. Research Organization, Div. of Soils, Adelaide, Australia): Apparatus and method for the measurement of natural abundance of tritium. NP-19005, 1971, 15 p., see alsoNucl. Sci. Abstr. 26 (1972) No. 26.
Józefowicz, K. (Inst. of Nuclear Research, Warsaw, Poland): Fission track detectors in neutron fluence measurements. INR-1332/IXA/PR, 1971, 13 p., see alsoNucl. Sci. Abstr. Poland 7 (1971) No. 797.
Kobal, I., Kristan, J. (Univ. of Ljubljana, Inst. Jozef Stefan, Ljubljana, Yugoslavia): Determination of222Rn concentration in hot spring waters using a scintillation chamber.Radiochem. Radioanal. Letters 10 (1972) 291–5.
Kreindlin, I. I., Mamikonyan, S. V., Matveev, L. V., Mikhailov, O. G.: Isotopic potassium concentration meter KRK-2.At. Energ. (USSR) 30 (1971) 85–6 (in Russian).
Loevborg, L., Wollenberg, H., Soerensen, P., Hansen, J. (Danish Atomic Energy Commission Research Establishment, Risø, Denmark): Field determination of uranium and thorium by gamma-ray spectrometry, exemplified by measurements in the Ilimaussaq alkaline intrusion, South Greenland.Econ. Geol. 66 (1971) 368–84, see alsoNucl. Sci. Abstr. 25 (1971) No. 41943.
McDowell, R. E., Copeland, J. C. (Argonne National Lab., Ill., USA): Evaluation of different scintillation cocktails for counting of tritiated ribonucleic acid separated by sucrose gradient centrifugation.Anal. Biochem. 41 (1971) 338–43, see alsoNucl. Sci. Abstr. 25 (1971) No. 39438.
Moeller, P., Zimen, K. E. (Hahn-Meitner-Inst. für Kernforschung, Berlin, FRG): Nuclear chemistry compendium. Part 1. Nuclear radiation measurement technique. HMI-B-108, 1971, 137 p. (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 34863.
Niday, J. B., Gunnink, R. (Lawrence Radiation Lab., California Univ., Livermore, Calif., USA): Computerized quantitative analysis by gamma-ray spectrometry. Vol. 3. A user's guide to gamanal. UCRL-51061, 8 July, 1971, 18 p., see alsoNucl. Sci. Abstr. 26 (1972) No. 1794.
Richard, P., Coppens, R.: Dosage précis du potassium et du thorium des roches par spectrométrie gamma.Compt. rend. 93e Congr. nat. soc. savantes, Tours, 1968. Sec. sci. T.1, Paris, 1971, 59–80, see alsoRef. Zh. Khim. 10 (1972) No. G 108.
Semenov, G. S., Grumkov, A. P., Kuptsov, V. P.: Determination of thorium concentration using cascade radiation.At. Energ. (USSR) 30 (1971) 547–8 (in Russian), see alsoNucl. Sci. Abstr. 25 (1971) No. 39439.
Talvitte, N. A. (Environmental Protection Agency, Las Vegas, Nev., USA): Radiochemical determination of plutonium in environmental and biological samples by ion exchange.Anal. Chem. 43 (1971) 1827–30, see alsoNucl. Sci. Abstr. 26 (1972) No. 1798.
Vilenski, V. D., Eremenko, Z. V.: Determination of226Ra in soils by an alpha-scintillation method.Sov. Radiochem. (Engl. Transl.) 12 (1970) 834–9. Translated fromRadiokhimiya 12 (1970) 864–70.
5. Analytical separations involving radioisotopes
Anosov, V. V., Gavrilov, N. I., Sobinyankova, N. M., Smelkova, T. P.: Simultaneous determination of niobium and tantal um in technological solutions by means of radioactive isotopes95Nb and182Ta.Zavodsk. Lab. 37 (1971) 297–9 (in Russian).
Baratta, E. J., Knowles, F. E. (Northeaster n Radiological Health Lab., Winchester, Mass., USA): Separations of calciumstrontium investigated by the use of tracers.Anal. Chem. 43 (1971) 1138–9, see also,Nucl. Sci. Abstr. 25 (1971) No. 41715.
Beneš, P., Vidová, E. (Czech. Techn. Univ.' Dept. of Nuclear Chem., Prague, Czechoslovakia): Coprecipitation of traces of Y in presence of very small amounts of Fe(III) hydroxide.Collect. Czech. Chem. Commun. 36 (1971) 2032–6 (in German)
Beneš, P., Kučera, J. (Czech. Techn. Univ'. Dept. of Nuclear Chem., Prague, Czechoslovakia): Radiochemical study of the sorption of trace elements Part 7. Adsorption of yttrium on polyethylene and the effect of low concentrations.Collect. Czech. Chem. Commun. 36 (1971) 1913–22, see alsoNucl. Sci. Abstr. Czech. 3 (1971) No. 0521.
Bobleter, O., Dincler, G., Sabau, C. (Technische Hochschule, Vienna, Austria): Quantitative analysis by sorption on ion exchangers.Mikrochim. Acta 2 (1971) 310–6 (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 41732.
Deptula, C., Makowski, H., Wiza, J. (Inst. Badan Jadrowych, Osrodek Produkcji i Distribucji Isotopów, Swierk, Poland): Preparation of141Ce and143Pr from cerium dioxide irradiated in the EWA reactor.Nukleonika 16 (1971) 31–5 (in Polish).
Foos, J., Guillamont, R. (Inst. de Phys. Nucléaire, Division de Radiochimie, Univ. de Paris, Orsay, France): Extraction par solvant des lanthanides à partir de nitrates alcalins fondus.Radiochem. Radioanal. Letters 10 (1972) 201–8.
Gibbons, D., Lambie, D. A.: Radiochemical methods of analysis.Comprehens. Anal. Chem., Vol. 2c, Amsterdam, 1971, 130–209, see alsoRef. Zh. Khim. 10 (1972) No. G 41.
Kornacki, W., Pozńanski, S., Choynowski, W. (Wyzszej Szkoly Rolniczej w Olsztynie, Katedra Technol. Mleczarskiej, Olsztyn, Poland): Removal of radioactive iodine from milk by means of ion exchangers produced in Poland.Nukleonika 15 (1970) 683–92 (in Polish).
Longin, R. (Lyon Univ., France): New method of collagen extraction for radiocarbon dating.Nature 230 (1971) 241–2, see alsoNucl. Sci. Abstr. 25 (1971) No. 37312.
Newton, G. W. A., Robinson, V. J.: Principles of radiochemistry. MacMillan, London, 1971, 97 p., see alsoRef. Zh. Khim. 9 (1972) No. B 695.
Popper, E.: The microanalysis of cobalt by electrophoretic focussing with radioactive tracer.Rev. Roum. Chim. 15 (1970) 1447–51.
Schulze, W.: Radiochemie. De Gruyter, Berlin-New York, 1971, 157 p., see alsoRef. Zh. Khim. 10 (1972) No. B 686.
Sofronie, E. (Inst. di Fizica Atomica, Bucuresti, Magurale, Roumania): Chromatography of radioactive substances in the gas phase. Application technics.Studii Cerc. Chim. 19 (1971) 417–36 (in Roumanian).
Thompson, G. H. (Savannah River Lab., E. I. du Pont Nemours and Co., Aiken, S. C. USA): Ion exchange separation of242Cm from plutonium, americium and fission products.Radiochem. Radioanal. Letters 10 (1972) 223–30.
Tölgyessy, J., Varga, S., Kriván, V.: Nuclear analytical chemistry. Vol. 1. Introduction to nuclear analytical chemistry. University Park Press, Baltimore, 1971, 217 p., see alsoNucl. Sci. Abstr. 26 (1972) No. 6448.
Uher, E. (Czech. Acad. Sci., Inst. Nuclear Research, Řež, Czechoslovakia): Calculation of a radioactive microcomponent on the ion exchanger in the presence of a competing macrocomponent under static conditions. ÚJV-2550-Ch, Feb. 1971, 58 p. (in Czech), see alsoNucl. Sci. Abstr. Czech. 3 (1971) No. 0528.
6. Analysis using radioactive reagents
Amer, F., Alradi, A., Mahdy, S. (Ministry of Agriculture, Iraq): Radiochemical detection of phosphate precipitation by calcium carbonate.Isotope Radiat. Res. 4 (1971) 77–83, see alsoNucl. Sci. Abstr. 26 (1972) No. 6702.
Blaedel, W. J., Anderson, T. J. (Wisconsin Univ., Madison, USA): Radioisotope derivative procedure for determination of epinephrine or norepinephrine.Anal. Chem. 43 (1971) 521–9, see alsoNucl. Sci. Abstr. 25 (1971) No. 26182.
Bowen, H. J. M.: Determination of sulphate ion by replacement of iodate in131I labelled barium iodate.Analyst 95 (1970) 665–7.
Ilicam D. D.: Determination of gold by precipitation with51Cr-labelled Reinecke salt.Rev. Chim. (Bucharest) 21 (1970) 417–9 (in Roumanian), see alsoNucl. Sci. Abstr. 25 (1971) No. 48458.
Kriváń, V. (Univ. of Freiburg, Dept. of Anal. Chem., Chem. Labor., Freiburg i. Br., FRG): A radio-release technique for determining traces of elements. Determination of mercury.Z. Anal. Chem. 253 (1971) 192–4.
Maryanov, B. M.: Radiometric titration.Atomizdat, Moscow, 1971, 168 p. (in Russian), see alsoNucl. Sci. Abstr. 26 (1972) No. 6483.
Rachinski, V. V., Kiryanovskii, A. M.: Development of radiochromatographic methods for the determination of constant ion exchange.Sb. Metod izotop. indikatorov v nauchn. issled. i v prom. prozi.-ve, Atomizdat, Moscow, 1971, 294–7 (in Russian), see alsoRef. Zh. Khim. 12 (1972) No. B 683.
Stepanov, A. V., Makarova, T. P., Shalinetz, A. B.: Application of the electromigration method for the study of the form of radioactive substances in solutions.Sb. Metod izotop. indikatorov v nauchn. issled. i v prom. proiz.-ve, Atomizdat, Moscow, 1971, 272–80 (in Russian), see alsoRef. Zh. Khim. 12 (1972) No. B 694.
Ziv, D. M., Ziv, V. S., Ivanchenko, A. F., Ishina, V. A., Kirin, I. S., Kukushkin, Yu. N., Moskalev, P.N., Sinitsyna, G. S., Sukhodolov, G. M., Fateev, V. F.: Application of the radiopotentiometric method for the study of the chemical form of elements in aqueous solutions and for the determination of micro and ultramicro quantities of metals.Sb. Metod izotop. indikatorov v nauchn. issled i v prom. proiz.-ve, Atomizdat, Moscow, 1971, 265–72 (in Russian), see alsoRef. Zh. Khim. 11 (1972) No. G 65.
7. Environmental monitoring A. Results
Anon.: Fundamental nuclear energy research 1970.A supplemental Report to the Annual Report to Congress for 1970 of the United States Atomic Energy Commission. January 1971. Washington, D. C., Atomic Energy Commission, 1971, 227 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 26205.
Anon. (Health and Safety Lab., USAEC New York Operations Office, N. Y., USA): Appendix toFallout Program Quarterly Summary Report, December 1, 1970–March 1, 1971. HASL-242 (App.), 1971,
Anon. (Health and Safety Lab., USAEC New York Operations Office, N. Y., USA): Data from sources other than HASL. HASL-242, 1971, p. III.1–85.Fallout Program Quarterly Summary Report, December 1, 1970–March 1, 1971, see alsoNucl. Sci. Abstr. 25 (1971) No. 32399.
Anon. (Health and Safety Lab., USAEC New York Operations Office, N. Y., USA): HASL fallout program data.Fallout Program Quarterly Summary Report, December 1, 1970–March 1, 1971. HASL-242, 1971, p.II.1–97, see alsoNucl. Sci. Abstr. 25 (1971) No. 32398.
As, D. van, Fourie, H. O. (Atomic Energy Board, Pretoria, South Africa): Comparison of the97Sr content in bone of population groups with high and low calcium diets.Fallout Program Quarterly Summary Report, December 1, 1970–March 1, 1971. HASL-242, 1971 p. I.24–34, see alsoNucl. Sci. Abstr. 25 (1971) No. 32396.
Audidiere, P., Balard, F., Dupouy, J. P., Van Kote, F. (CEA Centre d'Etudes de Bruyères-le-Châtel, 92-Montrouge, France): Distribution of radioactivity in the lava issuing from the cavity of a nuclear explosion. CEA-R-4099, 1971, 25 p. (in French), see alsoNucl. Sci. Abstr. 25 (1971) No. 41953.
Audidiere, P., Balard, F., Dupouy, J. P. Lavollee, P., Van Kote, F. (CEA Centre d'Etudes de Bruyères-le-Châtel, 92-Montrouge, France): Radioactivity distribution in the environment of a contained nuclear explosion. Part 1. Theoretical study: Account of the research method foreseen for the problem as a whole; behaviour of macro components of a granite between 3000 and 6000 °K at pressures between 10 and 100 bars. CEA-R-4128(1), 1971, 47 p. (in French), see alsoNucl. Sci. Abstr. 25 (1971) No. 41954.
Auerbach, S. I., Kaye, S. V., Nelson, D. J., Reichle, D. E., Dunaway, P. B., Booth, R. S. (Oak Ridge National Lab., Tenn., USA): Understanding the dynamic behavior of radionuclides released to the environment and implications.4th Intern. Conf. on the Peaceful Uses of Atomic Energy, Geneva, Switzerland, 6 Sept. 1971, CONF-710901-20, 1971, 18 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 37742.
Auraldsson, H., Ekman, L., Eriksson, A., Greitz, U. (Foersvarets Forskningsanstalt, Stockholm, Sweden): Further experimental studies on the transfer of radioiodine from pasture to milk. FOA-4-4458, 1971, 15 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 32394.
Behounek, F., Matousková, J. (Czech. Acad. Sci., Nucl. Res. Inst., Radiological Dosimetry Dept., Prague, Czechoslovakia): Induced airborne radioactivity at Prague-Bulovka during the year 1970.Jaderná Energ. 17 (1971) 146–9.
Bennett, B. G. (Health and Safety Lab., USAEC New York Operations Office, N. Y.):97Sr in the diet: results through 1970.Fallout Program Quarterly Summary Report December 1, 1970–March 1, 1971. HASL-242, 1971, p.I.108–20, see alsoNucl. Sci. Abstr. 25 (1971) No. 32397.
Biró, T., Grisanti, A., Tori, P. (Inst. of Isotopes, Budapest, Hungary): Measurement of the radioactivity of natural waters.Ann. Ist. Super. Sanita 6 (1970) 95–105, see alsoNucl. Sci. Abstr. 26 (1972) No. 28.
Bittel, R., Merlini, M., Myttenaere, C., Ravera, O. (CEA Centre d'Etudes Nucléaires de Fontenay-aux-Roses, 92-France): Study of the parameters of radiocobalt transfer in continental aquatic and irrigated ecosystems. CEA-R-4157, 1971, 36 p., EUR-4628 (in French), see alsoNucl. Sci. Abstr. 25 (1971) No. 32392.
Eberhardt, L. L. (Pacific-Northwest Lab., Battelle-Northwest, Richland, Wash., USA) Modelling radionuclides and pesticides in food chains.3rd National Symp. on Radioecology, Oak Ridge, USA, 10 May 1971, CONF-710501-7, 1971, BNWL-SA-3873, see alsoNucl. Sci. Abstr. 25 (1971) No. 37747.
Fuller, R. G. (Battelle, Memorial Inst., Columbus, Ohio, USA): Amchitka bioenvironmental program. Amchitka biological information summary. BMI-171-132, 1971, 16 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 37743.
Gamble, F. (Dept. of Environmental Engineering, Florida Univ., Gainesville, USA): Investigation of the unusual behaviour of130Cs and other radionuclides in the Florida environment.Progress Report, June 1970–April 1971. ORO-4066-1, 1971, see alsoNucl. Sci. Abstr. 25 (1971) No. 32402.
Hanson, W. C., Eberhardt, L. L. (Pacific-Northwest Lab., Battelle-Northwest, Richland, Wash., Colorado State Univ., Fort Collins, USA): Cycling and compartmentalizing of radionuclides in Northern Alaskan lichen communities. COO-2122-5, 1971, 22 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 37751.
Hanson, W. C., Whicker, F. W. (Dept. of Radiology and Radiation Biology, Colorado State Univ., Fort Collins, USA): Synthesis and analysis of Alaskan radiation ecology data. COO-2122-8, 1971, 11 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 37752.
Khristianov, V. K., Korochuganov, B. N. (Inst. of Geochem. and Anal. Chem., Moscow, USSR): On radon content in the waters of the upper Volga.Geokhimiya 4 (1971) 492–6 (in Russian), see alsoNucl. Sci. Abstr. 25 (1971) No. 41929.
Petrovic, P.: Distribution of radioactive fallout in the territory of the ČSSR.Acta Fac. Rev. Nat. Univ. Comenianar (Bratislava) No. 3 (1971) 251–66 (in German).
Rao, S. R., Shah, S. M. (Bhabha Atomic Res. Centre, Bombay, India): Alkaline earth elements in marine sediments of Tarapur coast.Curr. Sci. 40 (1971) 25–7, see alsoNucl. Sci. Abstr. 25 (1971) No. 18354.
Snelling, R. N. (Southwestern Radiological Health Lab., Las Vegas, Nev., USA): Environmental survey of uranium mill tailings pile, Mexican Hat, Utha.Radiol. Health Data Rep. 12 (1971) 17–28, see alsoNucl. Sci. Abstr. 25 (1971) No. 32409.
B. Methods
Anon: Tentative method of analysis for tritium content of the atmosphere.Health Lab. Sci. 8 (1971) 107–10, see alsoNucl. Sci. Abstr. 25 (1971) No. 48457.
Ballance, P. E., Johnson, S. (East Anglia Univ., UK): Use of Cherenkov inserts for counting high energy β and γ contamination samples.Health Phys. 20 (1971) 447–8, see alsoNucl. Sci. Abstr. 25 (1971) No. 42082.
Baranov, V. I., Motozova, N. G., Akimova, T. G., Orlova, A. V.: Radioactivity of surface and underground waters.Sb. Metody radioekol issled., Atomizdat, Moscow, 1971, p. 100–9 (in Russian), see alsoRef. Zh. Khim. 24 (1971) No. G 319.
Kamada, H., Mita, M., Saiki, M. (National Inst. of Radiological Sci., Chiba, Japan): Measurements of89Sr and90Sr in environmental samples by low background β-ray spectrometer.Radioisotopes (Tokyo) 20 (1971) 217–23 (in Japanese), see alsoNucl. Sci. Abstr. 25 (1971) No. 37314.
Knowles, F. E. Jr., Baratta, E. J. (Public Health Service, Winchester, Mass., USA): Determination of accuracy and precision limits for tritium in water.Radiol. Health Data 12 (1971) 405–9, see alsoNucl. Sci. Abstr. 26 (1972) No. 31.
Kollár, J., Chorvát, D., Klemová, L.: Estimation of radioactivity of biological samples containing a mixture of144Ce+144Pr and59Fe.Atompraxis 16 (1970) 247–9.
Santholzer, V., Stánsky, P., Knaifl, J., Kuncová, V. (Univ. Karlova, Lékarsk. Fak., Katedra Fyziky, Hradec Králov, Czechoslovakia): Differentiation of90Sr and89Sr by activity measurements.Jaderná Energ. 17 (1971) 113–7 (in Czech).
Sharma, G. D., Barsdate, R. J. (Univ. of Alaska, College): Liquid scintillation counting of45Ca in geochemical studies.Chem. Geol. 8 (1971) 33–6, see alsoNucl. Sci. Abstr. 26 (1971) No. 6485.
Stuart, T. P. (EG and G, Inc., Las Vegas, Nev., USA): Use of aerial surveys for determining plutonium concentration. Technical Report No. L-1030,Symp. on Safety in Plutonium-handling Facilities, Rocky Flats, Colo., USA, 15 April 1971, EGG-1183-1517, CONF-710401-2, 1971 10 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 34862.
Szy, D., Urban, A. (Medizinische Semmelweis Univ., Budapest, Hungary): Measurement of small amounts of radium and radon.Mikrochim. Acta 1 (1971) 131–6 (in German), see alsoNucl. Sci. Abstr. 25 (1971) No. 37310.
Vaughn, B. E. (Pacific Northwest Lab., Battelle-Northwest, Richland, Wash., USA): Pacific Northwest Laboratory Annual Report for 1970 to the USAEC Division of Biology and Medical Sciences, BNWL-1550 (Vol. 1) (Pt.2), 1971, 108 p., see alsoNucl. Sci. Abstr. 25 (1971) No. 37745.
Yastrebov, M. T. (Moscow State Univ., Moscow, USSR): Gamma spectrometric determination of radioisotopes in soils.Vestn. Mosk. Univ., Ser. VI. Biol. Pochvoved. 25 (1970) No. 5, 75–80, see alsoNucl. Sci. Abstr. 26 (1972) No. 29.
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Bock-Werthmann, W., Sansoni, B. & Bujdosó, E. Bibliography section. J. Radioanal. Chem. 13, 267–292 (1973). https://doi.org/10.1007/BF02514130
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DOI: https://doi.org/10.1007/BF02514130