Barna Biró scite author profile

Barna Biró

3Publications

11Citation Statements Received

73Citation Statements Given

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Affiliations

HUN-REN Institute for Nuclear Research, Hungarian Academy of Sciences, Babeș-Bolyai University

Publications

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A Comparison of the Effects of Neutron and Gamma Radiation in Silicon Photomultipliers

Biró

David

Fenyvesi

et al. 2019

IEEE Trans. Nucl. Sci.

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The effects of radiation damage in silicon photomultipliers (SiPMs) from gamma rays have been measured and compared with the damage produced by neutrons. Several types of MPPCs from Hamamatsu were exposed to gamma rays and neutrons at the Solid State Gamma Ray Irradiation Facility (SSGRIF) at Brookhaven National Lab and the Institute for Nuclear Research (Atomki) in Debrecen, Hungary. The gamma ray exposures ranged from 1 krad to 1 Mrad and the neutron exposures ranged from 10 8 n/cm 2 to 10 12 n/cm 2 . The main effect of gamma ray damage is an increase in the noise and leakage current in the irradiated devices, similar to what is seen from neutron damage, but the level of damage is considerably less at comparable high levels of exposure. In addition, the damage from gamma rays saturates after a few hundred krad, while the damage from neutrons shows no sign of saturation, suggestive of different damage mechanisms in the two cases. The change in optical absorption in the window material of the SiPMs due to radiation was also measured. This study was carried out in order to evaluate the use of SiPMs for particle physics applications with moderate levels of radiation exposures.

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A novel vertebrate system for the examination and direct comparison of the relative biological effectiveness for different radiation qualities and sources

Szabó

Reisz

Polanek

et al. 2018

International Journal of Radiation Biology

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Purpose: The recent rapid increase of hadron therapy applications requires the development of high performance, reliable in vivo models for preclinical research on the biological effects of high linear energy transfer (LET) particle radiation. Aim: The aim of this paper was to test the relative biological effectiveness (RBE) of the zebrafish embryo system at two neutron facilities. Material and Methods: Series of viable zebrafish embryos at 24-hour post-fertilization (hpf) were exposed to single fraction, whole-body, photon and neutron (reactor fission neutrons () and (p (18 MeV)þBe, ¼ 3.5 MeV) fast neutron) irradiation. The survival and morphologic abnormalities of each embryo were assessed at 24-hour intervals from the point of fertilization up to 192 hpf and then compared to conventional 6 MV photon beam irradiation results. Results: The higher energy of the fast neutron beams represents lower RBE (ref. source LINAC 6 MV photon). The lethality rate in the zebrafish embryo model was 10 times higher for 1 MeV fission neutrons and 2.5 times greater for p (18 MeV)þBe cyclotron generated fast neutron beam when compared to photon irradiation results. Dose-dependent organ perturbations (shortening of the body length, spine curvature, microcephaly, micro-ophthalmia, pericardial edema and inhibition of yolk sac resorption) and microscopic (marked cellular changes in eyes, brain, liver, muscle and the gastrointestinal system) changes scale together with the dose response. Conclusion: The zebrafish embryo system is a powerful and versatile model for assessing the effect of ionizing radiation with different LET values on viability, organ and tissue development.

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Thermoluminescence properties of 30Y 2 O 3 ·30P 2 O 5 ·40SiO 2 vitroceramics in mixed neutron-gamma fields

Biró

Fenyvesi

Timar-Gabor

et al. 2018

Applied Radiation and Isotopes

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Barna Biró

A Comparison of the Effects of Neutron and Gamma Radiation in Silicon Photomultipliers

A novel vertebrate system for the examination and direct comparison of the relative biological effectiveness for different radiation qualities and sources

Thermoluminescence properties of 30Y 2 O 3 ·30P 2 O 5 ·40SiO 2 vitroceramics in mixed neutron-gamma fields

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