Increased AMS Ion Source Efficiency and Ion Currents by Modifying SNICS Cathode Material and Geometry

Publication date: 2017 Source:Physics Procedia, Volume 90 Author(s): Joshua D. Hlavenka, Henry Abrams, Mark L. Roberts, Brett E. Longworth A series of tests have been conducted at the Wood Hole Oceanographic Institution's National Ocean Sciences Accelerator Mass Spectrometry facility (NOSAMS) to investigate the effect of sample well geometry and cathode material on C− extraction efficiency and beam currents. Ion current production tests were performed on aluminum cathodes that were prepared by drilling sample wells with various diameters (Ø), ranging from 0.50mm to 1.50mm, and depths ranging from 1.3mm to 4.3mm. Cathodes with sample well diameters of 1mm and 0.75mm had marginally better C− current, while current for the larger sample wells was lower but more consistent. Depth tests showed an obvious difference in ion beam currents, with shallow wells outperforming the deeper wells. Efficiency tests were first conducted on Al cathodes to find an optimum diameter. Cathodes with Ø of 0.50mm, 0.75mm, and 1.00mm were drilled to a depth of 2.3mm, hand pressed with approximately 250μg of Alfa Aesar graphite, and then run to exhaustion. The best performers were cathodes with Ø of 0.75mm, measuring as much as 16.5% efficiency compared to 13% from the 0.50mm and 15% from the 1.00mm cathodes. Cathodes with Zn inserts were then prepared in the same manner, with a 0.75mm diameter, and showed further improvement, increasing the ion source efficiency to as much as 27%.
Source: Physics Procedia - Category: Physics Source Type: research
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