S. Khulapko scite author profile

S. Khulapko

2Publications

10Citation Statements Received

48Citation Statements Given

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Affiliations

S. P. Korolev Rocket and Space Corporation Energia (Russia), Institute of Biomedical Problems

Publications

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Bubble-detector measurements in the Russian segment of the International Space Station during 2009-12

Smith¹,

Khulapko

Andrews³

et al. 2014

Radiation Protection Dosimetry

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Measurements using bubble detectors have been performed in order to characterise the neutron dose and energy spectrum in the Russian segment of the International Space Station (ISS). Experiments using bubble dosemeters and a bubble-detector spectrometer, a set of six detectors with different energy thresholds that is used to determine the neutron spectrum, were performed during the ISS-22 (2009) to ISS-33 (2012) missions. The spectrometric measurements are in good agreement with earlier data, exhibiting expected features of the neutron energy spectrum in space. Experiments using a hydrogenous radiation shield show that the neutron dose can be reduced by shielding, with a reduction similar to that determined in earlier measurements using bubble detectors. The bubble-detector data are compared with measurements performed on the ISS using other instruments and are correlated with potential influencing factors such as the ISS altitude and the solar activity. Surprisingly, these influences do not seem to have a strong effect on the neutron dose or energy spectrum inside the ISS.

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Bubble-Detector Measurements of Neutron Radiation in the International Space Station: Iss-34 to Iss-37

Smith¹,

Khulapko

Andrews³

et al. 2015

Radiat Prot Dosimetry

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Bubble detectors have been used to characterise the neutron dose and energy spectrum in several modules of the International Space Station (ISS) as part of an ongoing radiation survey. A series of experiments was performed during the ISS-34, ISS-35, ISS-36 and ISS-37 missions between December 2012 and October 2013. The Radi-N2 experiment, a repeat of the 2009 Radi-N investigation, included measurements in four modules of the US orbital segment: Columbus, the Japanese experiment module, the US laboratory and Node 2. The Radi-N2 dose and spectral measurements are not significantly different from the Radi-N results collected in the same ISS locations, despite the large difference in solar activity between 2009 and 2013. Parallel experiments using a second set of detectors in the Russian segment of the ISS included the first characterisation of the neutron spectrum inside the tissue-equivalent Matroshka-R phantom. These data suggest that the dose inside the phantom is ∼70% of the dose at its surface, while the spectrum inside the phantom contains a larger fraction of high-energy neutrons than the spectrum outside the phantom. The phantom results are supported by Monte Carlo simulations that provide good agreement with the empirical data.

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S. Khulapko

Bubble-detector measurements in the Russian segment of the International Space Station during 2009-12

Bubble-Detector Measurements of Neutron Radiation in the International Space Station: Iss-34 to Iss-37

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