K0-NAA for the Determination of Trace Elements in a Synthetic Material: a Collaborative Study

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K0-NAA for the Determination of Trace Elements in a Synthetic Material: a Collaborative Study. / Vermaercke, Peter; Robouch, Piotr; Sneyers, Liesel (Peer reviewer).

1st International Workshop on Nuclear Proficiency Testing. Vol. 1 New York, United States, 2008. p. 149-154 (AIP Conference Proceedings; No. 1036).

Research output: Contribution to report/book/conference proceedingsIn-proceedings paperpeer-review

Harvard

Vermaercke, P, Robouch, P & Sneyers, L 2008, K0-NAA for the Determination of Trace Elements in a Synthetic Material: a Collaborative Study. in 1st International Workshop on Nuclear Proficiency Testing. vol. 1, AIP Conference Proceedings, no. 1036, New York, United States, pp. 149-154, International Workshop on Nuclear Proficiency Testing, Bucharest, Romania, 2007-10-06.

APA

Vermaercke, P., Robouch, P., & Sneyers, L. (2008). K0-NAA for the Determination of Trace Elements in a Synthetic Material: a Collaborative Study. In 1st International Workshop on Nuclear Proficiency Testing (Vol. 1, pp. 149-154). (AIP Conference Proceedings; No. 1036)..

Vancouver

Vermaercke P, Robouch P, Sneyers L. K0-NAA for the Determination of Trace Elements in a Synthetic Material: a Collaborative Study. In 1st International Workshop on Nuclear Proficiency Testing. Vol. 1. New York, United States. 2008. p. 149-154. (AIP Conference Proceedings; 1036).

Author

Vermaercke, Peter ; Robouch, Piotr ; Sneyers, Liesel. / K0-NAA for the Determination of Trace Elements in a Synthetic Material: a Collaborative Study. 1st International Workshop on Nuclear Proficiency Testing. Vol. 1 New York, United States, 2008. pp. 149-154 (AIP Conference Proceedings; 1036).

Bibtex - Download

@inproceedings{53b455c87d48473395635d29d77e3335,
title = "K0-NAA for the Determination of Trace Elements in a Synthetic Material: a Collaborative Study",
abstract = "As part of an interlaboratory comparison in order to qualify a synthetic material to be used for the validation of the proper implementation of k0-Neutron Activation Analysis a collaborative trial was organised. Based on this collaborative study repeatability relative standard deviations ranging typically from 1 to 2% could be achieved, while reproducibility relative standard deviations ranged typically from 2 to 5 %. The obtained data demonstrate that the precision in k0-Neutron Activation Analysis is practically independent of the concentration over a range covering four orders of magnitude. The data show that k0-Neutron Activation Analysis is very precise over a wide concentration and fit for purpose for those clients who rely on the Horwitz equation to define their precision performance criteria. The study also shows that for Ce and Mo further experimental studies are needed.",
keywords = "Neutron-Activation Analysis, k0-standardisation, Interlaboratory comparison, collaborative trial, k0-NAA, Horwitz",
author = "Peter Vermaercke and Piotr Robouch and Liesel Sneyers",
note = "Score = 1; International Workshop on Nuclear Proficiency Testing ; Conference date: 06-10-2007 Through 09-10-2007",
year = "2008",
month = sep,
language = "English",
isbn = "978-0-7354-0560-8",
volume = "1",
series = "AIP Conference Proceedings",
number = "1036",
pages = "149--154",
booktitle = "1st International Workshop on Nuclear Proficiency Testing",

}

RIS - Download

TY - GEN

T1 - K0-NAA for the Determination of Trace Elements in a Synthetic Material: a Collaborative Study

AU - Vermaercke, Peter

AU - Robouch, Piotr

A2 - Sneyers, Liesel

N1 - Score = 1

PY - 2008/9

Y1 - 2008/9

N2 - As part of an interlaboratory comparison in order to qualify a synthetic material to be used for the validation of the proper implementation of k0-Neutron Activation Analysis a collaborative trial was organised. Based on this collaborative study repeatability relative standard deviations ranging typically from 1 to 2% could be achieved, while reproducibility relative standard deviations ranged typically from 2 to 5 %. The obtained data demonstrate that the precision in k0-Neutron Activation Analysis is practically independent of the concentration over a range covering four orders of magnitude. The data show that k0-Neutron Activation Analysis is very precise over a wide concentration and fit for purpose for those clients who rely on the Horwitz equation to define their precision performance criteria. The study also shows that for Ce and Mo further experimental studies are needed.

AB - As part of an interlaboratory comparison in order to qualify a synthetic material to be used for the validation of the proper implementation of k0-Neutron Activation Analysis a collaborative trial was organised. Based on this collaborative study repeatability relative standard deviations ranging typically from 1 to 2% could be achieved, while reproducibility relative standard deviations ranged typically from 2 to 5 %. The obtained data demonstrate that the precision in k0-Neutron Activation Analysis is practically independent of the concentration over a range covering four orders of magnitude. The data show that k0-Neutron Activation Analysis is very precise over a wide concentration and fit for purpose for those clients who rely on the Horwitz equation to define their precision performance criteria. The study also shows that for Ce and Mo further experimental studies are needed.

KW - Neutron-Activation Analysis

KW - k0-standardisation

KW - Interlaboratory comparison

KW - collaborative trial

KW - k0-NAA

KW - Horwitz

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/ezp_91723

UR - http://knowledgecentre.sckcen.be/so2/bibref/5201

M3 - In-proceedings paper

SN - 978-0-7354-0560-8

VL - 1

T3 - AIP Conference Proceedings

SP - 149

EP - 154

BT - 1st International Workshop on Nuclear Proficiency Testing

CY - New York, United States

T2 - International Workshop on Nuclear Proficiency Testing

Y2 - 6 October 2007 through 9 October 2007

ER -

ID: 69443