Elastic recoil detection analysis with heavy ion beams

1998 ◽  
Vol 136-138 ◽  
pp. 594-602 ◽  
Author(s):  
J.A. Davies ◽  
J.S. Forster ◽  
S.R. Walker
Keyword(s):  
Heavy Ion ◽  
Ion Beams ◽  
Elastic Recoil ◽  
Elastic Recoil Detection Analysis ◽  
Elastic Recoil Detection ◽  
Detection Analysis

Determination of the Mass Resolution and the Depth Resolution of Time of Flight Elastic Recoil Detection Analysis Using Heavy Ion Beams

1997 ◽  
Vol 36 (Part 1, No. 9A) ◽  
pp. 5737-5740 ◽  
Author(s):  
Wan Hong ◽  
Shinjiro Hayakawa ◽  
Kuniko Maeda ◽  
Shigekazu Fukuda ◽  
Minoru Yanokura ◽  
...  
Keyword(s):  
Time Of Flight ◽  
Depth Resolution ◽  
Heavy Ion ◽  
Ion Beams ◽  
Mass Resolution ◽  
Elastic Recoil ◽  
Elastic Recoil Detection Analysis ◽  
Elastic Recoil Detection ◽  
Detection Analysis

Heavy ion elastic recoil detection analysis set up for electronic sputtering studies

2006 ◽  
Vol 161 (4) ◽  
pp. 247-255 ◽  
Author(s):  
S. Ghosh ◽  
D. K. Avasthi ◽  
A. Tripathi ◽  
D. Kabiraj ◽  
P. Sugathan ◽  
...  
Keyword(s):  
Heavy Ion ◽  
Elastic Recoil ◽  
Elastic Recoil Detection Analysis ◽  
Elastic Recoil Detection ◽  
Detection Analysis ◽  
Set Up

scholarly journals In-situ measurements of magmatic volatile elements, F, S, and Cl, by electron microprobe, secondary ion mass spectrometry, and heavy ion elastic recoil detection analysis

2020 ◽  
Vol 105 (5) ◽  
pp. 616-626 ◽  
Author(s):  
Estelle F. Rose-Koga ◽  
Kenneth T. Koga ◽  
Jean-Luc Devidal ◽  
Nobumichi Shimizu ◽  
Marion Le Voyer ◽  
...  
Keyword(s):  
Matrix Effect ◽  
Secondary Ion Mass Spectrometry ◽  
Heavy Ion ◽  
Laboratory Method ◽  
Geochemical Data ◽  
Elastic Recoil ◽  
Elastic Recoil Detection Analysis ◽  
Elastic Recoil Detection ◽  
Detection Analysis

Abstract Electron probe and ion probe are the two most used instruments for in situ analysis of halogens in geological materials. The comparison of these two methods on widely distributed glass standards (example: MPI-DING glasses, Jochum et al., G-cubed, 2006) provides a basis for establishing laboratory method, independent geochemical data sets for these elements. We report analyses of F, S, and Cl concentrations in three geological glass samples (EPMA) and 10 referenced standards (EPMA and SIMS). Furthermore, F and Cl absolute abundances have been determined independently for three of the standards (KL2-G, ATHO-G, and KE12), via heavy ion elastic recoil detection analysis (HIERDA), to certify the accuracy of the cross-calibration EPMA-SIMS. The detection limits for EPMA are a 150 μg·g-1 for F, 20 μg·g-1 for S and Cl, and for SIMS < 48 μg·g-1 for F, < 3 μg·g-1 for S, and <19 μg·g-1 for Cl. On SiO2-rich glass-standards, F and Cl measurements by HIERDA highlight a weak matrix effect during SIMS analysis of F and Cl. With the HIERDA independently measured value, we therefore propose an alternative calibration function to empirically correct this matrix effect on the SIMS measurements of F, S, and Cl.

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