Radionuclide detection by ion-chromatography and on-line ICP/MS and beta detection: Fission product rare earth element measurements M. R. SmithO. T. Farmer IIID. W. Koppenaal Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 7 - 13
Determination of129I in low level radioactive waste by radiochemical instrumental neutron activation analysis K. I. BurnsM. R. Ryan Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 15 - 23
Organic analyses of an actual and simulated mixed waste: Hanford's organic complexant waste revisited A. P. TosteB. C. OsbornT. J. Lechner-Fish Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 25 - 34
Hot cell based time-of-flight mass spectrometry S. M. FrankD. J. BunnellS. G. Johnson Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 35 - 39
The application of micro-column solid phase extraction techniques for the determination of rare earth elements in actinide containing matrices K. P. CarneyD. G. Cummings Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 41 - 49
Ion chromatography and on-line scintillation counting for the analysis of non-gamma emitting radionuclides in reactor coolant R. A. FjeldS. GuhaJ. D. Leyba Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 51 - 59
Determination of uranium in salt solutions containing high levels of lanthanides via epithermal neutron activation analysis J. S. MorrisD. A. SorrellC. L. Krueger Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 61 - 69
Breakthrough volumes of TcO 4 − on Reillex™-HPQ anion exchange resin in a Hanford Double Shell Tank simulant K. R. AshleyJ. R. BallN. C. Schroeder Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 71 - 79
Radiological characterization of spent control rod assemblies E. A. LepelS. L. PrattD. L. Haggard Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 81 - 94
Investigations into speciation: Sorption and corrosion of actinides in systems of high ionic strength G. MarxC. Altenhein-HaeseF. Feldmaier Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 95 - 105
Development of on-line EDXRF to monitor actinide contaminated waste streams R. S. DayA. R. Vigil Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 107 - 115
Distribution of 14 elements from two solutions simulating Hanford HLW Tank 102-SY (acid-dissolved sludge and acidified supernate) on four cation exchange resins and five anion exchange resins having different functional groups S. F. MarshZ. V. SvitraS. M. Bowen Radioanalytical Methods Applied to the Nuclear Fuel Cycle (Continued) Pages: 117 - 131
Determination of long-lived actinides in soil leachates by inductively coupled plasma-mass spectrometry J. S. CrainL. L. SmithJ. A. Alvarado Determination of Actinide Elements in Environmental Materials Pages: 133 - 139
New radiochemical procedures for environmental actinide measurements and data quality control C. TestaD. DesideriC. Roselli Determination of Actinide Elements in Environmental Materials Pages: 141 - 149
Improved separation method for determining actinides in soil samples L. L. SmithJ. S. CrainR. Chiarizia Determination of Actinide Elements in Environmental Materials Pages: 151 - 156
Determination of plutonium-239/240 in fish in low-level radioactive Ocean waste Dump Sites E. J. Baratta Determination of Actinide Elements in Environmental Materials Pages: 157 - 162
Rapid determination of radium isotopes by alpha spectrometry J. S. AlvaradoK. A. OrlandiniM. D. Erickson Determination of Actinide Elements in Environmental Materials Pages: 163 - 172
The use of liquid scintillation analysis in the monitoring of α emitting and transuranium nuclides in environmental samples Y. J. ZhuD. Z. Yang Determination of Actinide Elements in Environmental Materials Pages: 173 - 175
Study on liquid scintillation technique for bioassay of plutonium D. Z. YangY. F. GouY. J. Zhu Determination of Actinide Elements in Environmental Materials Pages: 177 - 183
CR-39 Nuclear Track Detectors for identification of Pu-239 and Am-241 alpha contamination G. EspinosaR. J. Silva Determination of Actinide Elements in Environmental Materials Pages: 185 - 189
Rapid, quantitative analysis of americium, curium and plutonium isotopes in Hanford samples using extraction chromatography and precipitation plating J. H. KayeR. S. StrebinR. D. Orr Determination of Actinide Elements in Environmental Materials Pages: 191 - 196
A comparison of macro- and microscopic measurements of plutonium in contaminated soil from the Republic of the Marshall Islands S. L. SimonT. JennerA. Borchert Determination of Actinide Elements in Environmental Materials Pages: 197 - 205
Determination of alpha contaminated soil profiles using Nuclear Track Detectors G. EspinosaR. J. Silva Determination of Actinide Elements in Environmental Materials Pages: 207 - 212
Sources of misinterpretation for environmental plutonium measurements S. A. IbrahimS. B. WebbA. Kattel Determination of Actinide Elements in Environmental Materials Pages: 213 - 219
Field performance test of PASS, an instrument for the rapid assay of plutonium and other γ-ray emitting radionuclides R. J. GehrkeK. D. WattsC. R. Amaro Determination of Actinide Elements in Environmental Materials Pages: 221 - 228