Neutron Activation Analysis for the Rare Earths in Apatite

Barker, James F.

January 1969

A method for the determination of low concentrations (<10PPM) of rare earths in minerals and rocks by neutron activation analysis is presented. A 10 min irradiation of sample and standard required no chemical purification owhile a 20hr, irradiation required an ion exchange purification before actual counting. A Li-drifted germanium detector an 1600 channel gamma spectrometer provided sufficient resolution to allow determination of La, Pr, Sm, Eu, Dy, Ho, Yb and Lu in two apatite samples. The results are generally higher than those obtained by other neutron activation analyses. The specific causes are uncertain and can be resolved best by further study and modification of this neutron activation analysis. / Thesis / Bachelor of Science (BSc)

Neuron activation analysis

The Geochemistry of Pd, Os, Ir and Au in the Mount Albert Ultramafic Pluton, Quebec

Chyi, Lindgren Lin

10 1900

A neutron activation analysis procedure for the simultaneous determination of Au, Pd and Ir, and separate determination of Os is described and applied to the determination of these metals in the Mount Albert ultramafic pluton, Quebec. The Mount Albert is an alpine-type ultramafic body whose petrography, geology and geochemistry has been discussed in some detail by MacGregor (1962, 1964). It consists mainly of serpentinized dunite and peridotite. However, it is distinguished by the presence of an eastern lobe which is essentially unserpentinized. In addition to ferromagnesians, two varieties of spinel including disseminated accessory chrome spinel and massive, discordant chromite veins or schlieren are important mineralogical constituents. Twenty samples were analyzed including 5 fresh dunites and peridotites, 8 serpentinized equivalents, 4 disseminated chrome spinels, 1 clinopyroxenite, and 2 massive chromite. The concentrations (in p. p. b.) of average fresh ultramafics and their serpentinized equivalents are:-------------------------------------- ---------------------Pd----Os----Ir----Au------------------------------------------- Fresh rocks------------7.7----7.2--2.5--0.99------------------------------------------- Serpentinized rocks---10----6.6--2.2---2.4-------------------------------------------- The piuton was intruded as a nearly solid mass of olivine and some orthopyroxene with about 15 weight per cent melt. A small concentration of the precious metals, a factor of 2 to 3, in the melt relative to crystalline phases appears to have occurred. The disseminated chrome spinel and massive chromite appear to concentrate the precious metals. In particular, Os and Ir content of the massive chromite is approximately 10 times that of fresh or serpentinized whole rocks. There is little change in average precious metal content with serpentinization. Pd shows a slight increase, and Ir and Os slight decreases in concentration with degree of serpentinization. Only Au appears significant to be enriched in serpentinized rocks where a twofold increase occurs. The variation in precious metal content of all four metals increase when the rocks are serpentinized: When normalized to chondrite meteorites, the precious metal data give fractionation trends similar to that of average chondrite. These trends are compatible with a model in which alpine ultramafics are regarded as residua from the partial melting of parental material of approximately chondritic composition. / Thesis / Master of Science (MSc)

neuron activation analysis

Mount Albert ultramafic pluton

precious metal content of rocks

dunite

peridotite

serpentinized

unserpentinized

chrome spinel

clinopyroxenite

chromite