A. L. Lebacq scite author profile

A. L. Lebacq

5Publications

33Citation Statements Received

40Citation Statements Given

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Affiliations

Belgian Nuclear Research Centre, TU Dresden

Publications

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Study of the Counting Efficiency of a WBC Setup by Using a Computational 3D Human Body Library in Sitting Position Based on Polygonal Mesh Surfaces

Fonseca¹,

Bogaerts²,

Lebacq³

et al. 2014

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A realistic computational 3D human body library, called MaMP and FeMP (Male and Female Mesh Phantoms), based on polygonal mesh surface geometry, has been created to be used for numerical calibration of the whole body counter (WBC) system of the nuclear power plant (NPP) in Doel, Belgium. The main objective was to create flexible computational models varying in gender, body height, and mass for studying the morphology-induced variation of the detector counting efficiency (CE) and reducing the measurement uncertainties. First, the counting room and an HPGe detector were modeled using MCNPX (Monte Carlo radiation transport code). The validation of the model was carried out for different sample-detector geometries with point sources and a physical phantom. Second, CE values were calculated for a total of 36 different mesh phantoms in a seated position using the validated Monte Carlo model. This paper reports on the validation process of the in vivo whole body system and the CE calculated for different body heights and weights. The results reveal that the CE is strongly dependent on the individual body shape, size, and gender and may vary by a factor of 1.5 to 3 depending on the morphology aspects of the individual to be measured.

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Monte Carlo modelling for the in vivo lung monitoring of enriched uranium: Results of an international comparison

Broggio

Bento

Caldeira

et al. 2012

Radiation Measurements

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EURADOS work on internal dosimetry

et al. 2018

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European Radiation Dosimetry Group (EURADOS) Working Group 7 is a network on internal dosimetry that brings together researchers from more than 60 institutions in 21 countries. The work of the group is organised into task groups that focus on different aspects, such as development and implementation of biokinetic models (e.g. for diethylenetriamine penta-acetic acid decorporation therapy), individual monitoring and the dose assessment process, Monte Carlo simulations for internal dosimetry, uncertainties in internal dosimetry, and internal microdosimetry. Several intercomparison exercises and training courses have been organised. The IDEAS guidelines, which describe - based on the International Commission on Radiological Protection's (ICRP) biokinetic models and dose coefficients - a structured approach to the assessment of internal doses from monitoring data, are maintained and updated by the group. In addition, Technical Recommendations for Monitoring Individuals for Occupational Intakes of Radionuclides have been elaborated on behalf of the European Commission, DG-ENER (TECHREC Project, 2014-2016, coordinated by EURADOS). Quality assurance of the ICRP biokinetic models by calculation of retention and excretion functions for different scenarios has been performed and feedback was provided to ICRP. An uncertainty study of the recent caesium biokinetic model quantified the overall uncertainties, and identified the sensitive parameters of the model. A report with guidance on the application of ICRP biokinetic models and dose coefficients is being drafted at present. These and other examples of the group's activities, which complement the work of ICRP, are presented.

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EURADOS 241Am skull measurement intercomparison

Nogueira

Rühm

López

et al. 2015

Radiation Measurements

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In 2011 a measurement intercomparison was launched by EURADOS WG7, with the objective of providing the participants with the tools to calibrate their detection systems for detection of 241 Am in the skull bone, and evaluate the variability due to the used of the different calibration phantoms. Three skull phantoms were used in this intercomparison: the USTUR Case 0102 skull phantom, the BfS skull phantom and the CSR skull phantom. Very good agreement was found between the results of the twelve participating laboratories, with relative deviations of less than 15% for the BfS phantom and less than 17% for the USTUR phantom when measurement efficiency in defined positions was compared. However, the phantoms' measured absolute 241 Am activities showed discrepancies of up to a factor of 3.4. This is mainly due to the physical differences between the standard calibration phantoms used by the participants and those used in this intercomparison exercise.

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Use of Active Personal Dosemeters in Interventional Radiology: A Systematic Study in Laboratory Conditions

Clairand

Bordy

Daures

et al. 2009

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A. L. Lebacq

Study of the Counting Efficiency of a WBC Setup by Using a Computational 3D Human Body Library in Sitting Position Based on Polygonal Mesh Surfaces

Monte Carlo modelling for the in vivo lung monitoring of enriched uranium: Results of an international comparison

EURADOS work on internal dosimetry

EURADOS 241Am skull measurement intercomparison

Use of Active Personal Dosemeters in Interventional Radiology: A Systematic Study in Laboratory Conditions

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