Marcin Łaciak scite author profile

Marcin Łaciak

2Publications

14Citation Statements Received

37Citation Statements Given

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Affiliations

Institute of Physics, University of Silesia, Institute of Occupational Medicine and Environmental Health

Publications

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Thermal and resonance neutrons generated by various electron and X-ray therapeutic beams from medical linacs installed in polish oncological centers

Konefał

Orlef

Łaciak

et al. 2012

Reports of Practical Oncology & Radiotherapy

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The thermal as well as resonance neutron fluence depends strongly on the type and the nominal potential of a therapeutic beam. It is greater for X-ray beams than for electrons. The accelerator accessories and other large objects should not be stored in a treatment room during high-energy therapeutic beam emission to avoid their activation caused by thermal and resonance neutrons. Half-lives of the radioisotopes originating from the simple capture reaction (n,γ) (from minutes to hours) are long enough to accumulate radioactivity of components of the accelerator head. The radiation emitted by induced radioisotopes causes the additional doses to staff operating the accelerators.

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Significant change in the construction of a door to a room with slowed down neutron field by means of commonly used inexpensive protective materials

Konefał

Łaciak

Dawidowska

et al. 2013

Radiation Protection Dosimetry

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The detailed analysis of nuclear reactions occurring in materials of the door is presented for the typical construction of an entrance door to a room with a slowed down neutron field. The changes in the construction of the door were determined to reduce effectively the level of neutron and gamma radiation in the vicinity of the door in a room adjoining the neutron field room. Optimisation of the door construction was performed with the use of Monte Carlo calculations (GEANT4). The construction proposed in this paper bases on the commonly used inexpensive protective materials such as borax (13.4 cm), lead (4 cm) and stainless steel (0.1 and 0.5 cm on the side of the neutron field room and of the adjoining room, respectively). The improved construction of the door, worked out in the presented studies, can be an effective protection against neutrons with energies up to 1 MeV.

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Marcin Łaciak

Thermal and resonance neutrons generated by various electron and X-ray therapeutic beams from medical linacs installed in polish oncological centers

Significant change in the construction of a door to a room with slowed down neutron field by means of commonly used inexpensive protective materials

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