The Proton-21 Laboratory in the Ukraine has been publishing results on shock-induced transmutation of several elements, including Cobalt 60 into non-radioactive elements. This report documents exploratory characterization of a shock-compressed Aluminum-6061 sample, which is the only available surrogate for the high-purity copper samples in the Proton-21 experiments. The goal was to determine Sandia's ability to detect possible shock-wave-induced transmutation products and to unambiguously validate or invalidate the claims in collaboration with the Proton-21 Laboratory. We have developed a suitable characterization process and tested it on the surrogate sample. Using trace elemental analysis capabilities, we found elevated and localized concentrations of impurity elements like the Ukrainians report. All our results, however, are consistent with the ejection of impurities that were not in solution in our alloy or were deposited from the cathode during irradiation or possibly storage. Based on the detection capabilities demonstrated and additional techniques available, we are positioned to test samples from Proton-21 if funded to do so.
[1]
V. Vysotskii,et al.
Experimental Observation and a Possible way to the Create Anomalous Isotopes and Stable Superheavy Nuclei via Electron-Nucleus Collapse
,
2005
.
[2]
V. Vysotskii,et al.
Mechanism of synthesis of superheavy nuclei via the process of controlled electron-nuclear collapse
,
2004
.
[3]
A. Andreev,et al.
Estimation of the amount of the nuclear transformation products formed under explosion-induced compression of a substance to the superdense state
,
2004,
nucl-ex/0404040.
[4]
S. S. Ponomarev,et al.
Study of the composition of products of controlled nucleosynthesis by local Auger-electron spectroscopy
,
2004,
nucl-ex/0404041.
[5]
V. Vysotskii,et al.
POSSIBLE EXPLANATION OF THE ANOMALOUS LOCALIZATION EFFECT OF THE NUCLEAR REACTION PRODUCTS STIMULATED BY CONTROLLED COLLAPSE AND THE PROBLEM OF STABLE SUPERHEAVY NUCLEI
,
2003
.