WG 6 - Computational Dosimetry

CONRAD WP4 workshop on

"Uncertainty Assessment in Computational Dosimetry: A Comparison of Approaches"

Monday 8^th October 2007

B.R.L. Siebert: GUM-based uncertainty in radiation protection: survey on methods and practices.

G. Gualdrini, R. Bedogni, P. Ferrari: Summary of P2 problem: Bonner sphere spectrometer.

W. Dittrich, W. Hofmann: Influence of the S(a,b) thermal treatment on MCNPX calculations related to a Bonner sphere spectrometer.

R. Bedogni: Neutron spectrometry using Bonner spheres.

M. Reginatto: Unfolding techniques for neutron spectrometry.

J-M. Bordy, L. de Carlan: Summary of P4 problem: photon irradiation facility.

C. Hranitzky, H. Stadtmann: ¹³⁷Cs Irradiation Facility – Comparison of Simulation and Experiments.

R. Tanner, V. Lacoste: Summary of P3 problem: Sigma simulated work-place neutron field.

Yi-Kang Lee: TRIPOLI-4 solution for SIGMA graphite moderated Am-Be neutron field.

P. Arce, M. Embid, J.I. Lagares: CIEMAT solution with MCNPX and GEANT4

M. Zankl: State of the art of voxel phantoms development.

J-M. Gomez Ros et al.: International comparison of Monte Carlo modeling for in vivo measurements of Americium in a knee phantom.

H. Vincke: Photon irradiation facility, Question 2

Tuesday 9^th October 2007

M. Terrissol: Modelling of ionizing radiation effects on DNA.

B. Grosswendt: From macro to nanodosimetry: limits of the absorbed dose concept and definition of new quantities.

E. Gargioni, S. Rollet, B. Grosswendt: Microdosimetric distributions and pulse-height spectra for a mini-TEPC due to photon radiation

H. G. Hughes: Improved logic for sampling Landau Straggling in MCNP5-1

H. G. Hughes: Improved logic for sampling Landau Straggling in MCNP5-2

H. G. Hughes: Variance reduction with pulse-height tallies in MCNP.

H. G. Hughes: Recent developments in MCNP and MCNPX.

J. L. Chartier, P. Cassette: Summary of P5 problem: Manganese bath.

N. J. Roberts: Solution to problem P5: The Manganese Bath

I. Kodeli: Summary of P6 problem: the iron sphere experiment.

A. Milocco, A. Trkov: CONRAD Problem 6: Iron sphere experiments.

S.P. Simakov et al.: IPPE Iron shell transmission experiment with 14 MeV neutron source and its analysis by the Monte-Carlo method

Wednesday 10^th October 2007

R. Price: Summary of P7 problem: energy response characteristics of a MOSFET radiation detector.

M. Wind et al.: Energy response characteristics of a RadFET radiation detector.

J-M. Bordy et al.: Design of a realistic calibration field for diagnostic radiology (medical staff dosimetry)

F. Schultz et al.: Simulation of an interventional cardiac catheterization procedure (medical staff dosimetry)

L. Struelens et al.: Summary of the submitted problem solutions (medical staff dosimetry)

S. Agosteo, A. Pola: Summary of P1 problem: recoil-proton telescope detector.

J. Henniger, J. Posselt: P1 recoil-proton telescope detector.

J. Posselt et al.: Sensitivity study of a recoil-proton telescope detector.

J. Fernandez, V. Scot: Photon polarization treatment in Monte Carlo transport modeling.

S. Rollet et al.: Monte Carlo simulations of carbon ion irradiation experiment at GSI.

H. Vincke et al.: High-energy study at CERN's accelerators.