An attempt to select suitable elements to characterize an ancient ceramic by neutron activation analysis J. DieboltJ. C. Ricq Applications in Archaeology, Art and Forensic Sciences Pages: 9 - 20
Instrumental neutron activation analysis of “melian”potsherds A. P. GrimanisM. Vassilaki-GrimaniM. I. Karayannis Applications in Archaeology, Art and Forensic Sciences Pages: 21 - 31
Characterisation of South West African potsherds by neutron activation analysis of trace elements G. J. BoulleM. Peisach Applications in Archaeology, Art and Forensic Sciences Pages: 33 - 44
Activation analysis of Turkish and Canadian clays and Turkish pottery O. BirgülM. DikšićL. Yaffe Applications in Archaeology, Art and Forensic Sciences Pages: 45 - 62
Trace elements archeochemistry in different sigillated potteries, using neutron activation analysis J. L. JoronM. TreuilH. Jaffrezic Applications in Archaeology, Art and Forensic Sciences Pages: 63 - 67
Activation analysis of rare-earth elements in opium and cannabis samples G. Henke Applications in Archaeology, Art and Forensic Sciences Pages: 69 - 83
A very rapid instrumental neutron activation analysis method for the forensic comparasion of bullet-lead specimens V. P. GuinnM. A. Purcell Applications in Archaeology, Art and Forensic Sciences Pages: 85 - 91
Photon activation analysis of coins and objects of art P. ReimersG. J. LutzChr Segebade Applications in Archaeology, Art and Forensic Sciences Pages: 93 - 97
Neutron activation analysis on ancient Greek silver coins and related materials P. A. SchubigerO. MüllerW. Gentner Applications in Archaeology, Art and Forensic Sciences Pages: 99 - 112
Analysis of ancient copper alloys using epithermal activation techniques G. R. Gilmore Applications in Archaeology, Art and Forensic Sciences Pages: 113 - 120
Identification of a modern imitation of an old scientific instrument by means of neutron activation analysis P. JordanK. May Applications in Archaeology, Art and Forensic Sciences Pages: 121 - 126
Determination of trace elements in ancient glasspieces and correlation with corrosion and devitrification G. NauerH. SorantinP. Krejsa Applications in Archaeology, Art and Forensic Sciences Pages: 127 - 136
Trace element abundances in stone artifacts and related materials from Japan by neutron activation analysis. An approach to archaeological provenience studies M. OsawaH. KasuyaY. Sakakibara Applications in Archaeology, Art and Forensic Sciences Pages: 137 - 152
Radial efficiency gradients in Ge(Li) gamma detectors R. M. Lindstrom Accuracy and Precision Pages: 153 - 161
Counting yield correction by an event —time interval—transformation W. Görner Accuracy and Precision Pages: 163 - 169
Some problems of calibration technique in charged particle activation analysis N. N. KrasnovB. V. ZatolokinI. O. Konstantinov Accuracy and Precision Pages: 171 - 177
Quantitative evaluation of interference reactions in photon activation analysis Ch. SegebadeG. J. LutzH. P. Weise Accuracy and Precision Pages: 179 - 184
Trace elements determination in rocks powder. A study of the precision for a given analytical procedure H. JaffrezicJ. L. JoronM. Treuil Accuracy and Precision Pages: 185 - 188
Improving accuracy in routine instrumental activation analysis R. J. RosenbergR. Zilliacus Accuracy and Precision Pages: 189 - 200
Analysis of interfering peaks in Ge(Li) gamma-ray spectra using the resolution enhancement filters second version of the method S. Sterliński Accuracy and Precision Pages: 201 - 211
A comparative study of computer programs used for analyzing gamma-ray spectra in activation analysis H. Petri Accuracy and Precision Pages: 213 - 221
Model uncertainty and bias in the evaluation of nuclear spectra L. A. Currie Accuracy and Precision Pages: 223 - 237
The precision and accuracy of iterative and non-iterative methods of photopeak integration in activation analysis, with particular reference to the analysis of multiplets P. A. Baedecker Accuracy and Precision Pages: 239 - 254
A comparison of photopeak area computation methodologies H. P. YuleH. L. Rook Accuracy and Precision Pages: 255 - 261
Comparison of various analytical techniques for homogeneity test of candidate standard reference materials G. GuzziA. ColomboN. Toussaint Sampling and Homogeneity Control Pages: 263 - 276
Evaluation by activation analysis of elemental retention in biological samples after low temperature ashing G. J. LutzJ. S. StempleH. L. Rook Sampling and Homogeneity Control Pages: 277 - 283
Role of neutron activation analysis in the evaluation of sampling, storage, and analysis of samples for the national environmental banking system T. E. GillsL. T. McClendon Sampling and Homogeneity Control Pages: 285 - 291
The stability of trace metals suspensions in heavy crudes as determined by neutron activation analysis H. D. BuenafamaJ. A. Lubkowitz Sampling and Homogeneity Control Pages: 293 - 300
Application of the brittle fracture technique (BFT) to homogenise biological samples and some observations regarding the distribution behaviour of the trace elements at different concentration levels in a biological matrix G. V. IyengarK. Kasperek Sampling and Homogeneity Control Pages: 301 - 316
Rapid homogenisation and drying of biological materials I. Y. Donev Sampling and Homogeneity Control Pages: 317 - 322
The NIMROC samples as reference materials for neutron activation analysis C. S. ErasmusH. W. FesqJ. P. F. Sellschop Standard Materials Pages: 323 - 334
Homogeneously doped silica matrices for trace element standards in neutron activation analysis J. W. MitchellL. D. BlitzerL. Clark Jr. Standard Materials Pages: 335 - 342
Surface treatment of non-ferrous metal samples to be certified for their oxygen, nitrogen and carbon content G. Y. WeberD. DavidJ. Vanaudenhove Standard Materials Pages: 343 - 350
The determination of iodine in biological and environmental standard reference materials H. L. Rook Standard Materials Pages: 351 - 358
The non destructive determination of iodine in soils and biological materials by high energy gamma-photon activation D. R. WilliamsJ. S. Hislop Comparisons with Other Analytical Methods Pages: 359 - 373
Determination of isotopic composition of lithium by neutron activation analysis; comparison with mass spectrometry R. WölfleA. Neubert Comparisons with Other Analytical Methods Pages: 375 - 384
Determination of oxygen in metals and semiconductors by means of the16O(T, n)18F reaction M. ValladonJ. L. Debrun Comparisons with Other Analytical Methods Pages: 385 - 395
Comparison of photon activation analysis with other modern analytical methods as tools for the solution of actual analytical problems R. NeiderTh. DudzusH. P. Weise Comparisons with Other Analytical Methods Pages: 397 - 408
Comparison of γ activation and vacuum distillation for determination of oxygen in sodium J. S. HislopJ. R. StevensD. A. Wood Comparisons with Other Analytical Methods Pages: 409 - 419
Problems of chromium analysis in biological materials: An international perspective with special reference to results for analytical quality control samples R. M. Parr Comparisons with Other Analytical Methods Pages: 421 - 433
Representative sampling and the proper use of reference materials a discussion held at the international conference: modern trends in activation analysis 1976 O. U. AndersJ. I. Kim Discussion Pages: 435 - 444