Application of recombination chambers for determination of neutron ambient dose equivalent at the door to the maze of linear accelerator vault

A deficiency in the implementation of current radiation protection is the determination of the ambient dose equivalent H*(10) and the directional dose equivalent H´(0.07) in pulsed radiation fields. Conventional dosimeter systems are not suitable for measurements in photon fields comprising short radiation pulses, which consequently leads to high detector loads in short time periods. Nevertheless, due to the implementation of advanced medical accelerators for cancer therapy, new medical diagnostic devices as well as various laser machining systems, there is an urgent need for suitable dosimeter systems for real time dosimetry. In this paper, a detector concept based on an organic scintillator and a full digital data analysis with the aim of developing a portable, battery powered measurement system is presented.

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Ambient dose equivalent measurements in secondary radiation fields at proton therapy facility CCB IFJ PAN in Krakow using recombination chambers

Nukleonika ◽

10.1515/nuka-2016-0006 ◽

2016 ◽

Vol 61 (1) ◽

pp. 23-28 ◽

Cited By ~ 1

Author(s):

Edyta A. Jakubowska ◽

Michał A. Gryziński ◽

Natalia Golnik ◽

Piotr Tulik ◽

Liliana Stolarczyk ◽

...

Keyword(s):

Nuclear Physics ◽

Gamma Probe ◽

Secondary Radiation ◽

Dose Equivalent ◽

Radiation Fields ◽

Tissue Equivalent ◽

Ambient Dose Equivalent ◽

Dosimetric System ◽

Ambient Dose

AbstractThis work presents recombination methods used for secondary radiation measurements at the Facility for Proton Radiotherapy of Eye Cancer at the Institute for Nuclear Physics, IFJ, in Krakow (Poland). The measurements ofH*(10) were performed, with REM-2 tissue equivalent chamber in two halls of cyclotrons AIC-144 and Proteus C-235 and in the corridors close to treatment rooms. The measurements were completed by determination of gamma radiation component, using a hydrogen-free recombination chamber. The results were compared with the measurements using rem meter types FHT 762 (WENDI-II) and NM2 FHT 192 gamma probe and with stationary dosimetric system.

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Determination of the Effective Dose on X-ray Inspection Systems Based on Measurements of Air Kerma or Ambient Dose Equivalent

ANRI ◽

10.37414/2075-1338-2020-100-1-16-24 ◽

2020 ◽

pp. 16-24

Author(s):

S. Baru ◽

V. Kravchenko ◽

V. Leonov ◽

P. Papushev ◽

V. Porosev

Keyword(s):

Effective Dose ◽

Accurate Determination ◽

Photon Radiation ◽

Dose Equivalent ◽

X Ray ◽

Air Kerma ◽

Ambient Dose Equivalent ◽

Inspection Systems ◽

Ambient Dose

The purpose of this work was to determine the transition coefficients from measured values in practice – air kerma or ambient dose equivalent to the effective dose of radiation on inspection systems using X-ray radiation, in particular, for the installation «Sibscan». This paper presents the results of Monte Carlo calculations using the GEANT4 simulation package and the MIRD and ICRP anthropomorphic phantoms. It was shown that when calculations are based on measurements of the kerma in the air, it is necessary to use the multiplier 1.05 (Sv/Gy) when a person is irradiated in anteroposterior projection and 0.65 (Sv/Gy) in posteroanterior projection. In calculations based on measurements of the ambient dose equivalent H*(10), it is necessary to take into account the conversion constant H*(10)/Kerma, equal to 1.62 (Sv/Gy) and use the coefficients 0.65 (Sv/Sv) and 0.4 (Sv/Sv) in the specified projections respectively. For a more accurate determination of the effective dose, it is necessary to take into account a larger set of technical parameters of the system. Thus, it is necessary to declare not only the maximum voltage at the radiation source but also the thickness of the half-attenuation layer in aluminum as a measure of the applied photon radiation filtering. The obtained coefficients could be used in estimating the effective radiation doses on real installations.

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