Mykhailo Buzynnyi

Graduated radiophysics, 1986. Environmental radioactivity, radioactivity measurements. Liquid scintillation counting, tritium, radiocarbon, natural radionuclides, gamma-spectroscopy. Radiocarbon dating.

EDUCATION

1974-1978 Kyiv technical school of shipbuilding
1980-1986 Kyiv National Taras Shevchenko University

RESEARCH, TEACHING, or OTHER INTERESTS

Multidisciplinary, Environmental Science, Radiation, Epidemiology

Scopus Publications

Estimation of natural radioactivity in underground water sources for personal use in Zhytomyr city and its suburbs
Mykhailo Buzynnyi, Roman Prihod’ko, Liubov Mykhailova
Scientific Reports, 2025
Regarding the possible impact of forest fires on the radioactive pollution of groundwater in the chornobyl exclusion zone
Mykola Panasiuk, Mykhailo Buzynnyi, Serhii Kirieiev, Natalia Sosonna, Ihor Kovalenko, et al.
Scientific Reports, 2025
137Cs daily intake with the foodstuff in the selected cohort of the village Narodychi 30 years after the Chornobyl accident
Mykhailo Buzynnyi, Shinzo Kimura, Mykola Didukh, Yukako Komasa, Liubov Mykhailova, et al.
Environmental Monitoring and Assessment, 2025
Analysis of increasing 90Sr migration with groundwater from the Chornobyl NPP
I. Kovalenko, M. Panasiuk, N. Sosonna, M. Buzynnyi, I. Onyshchenko, et al.
18th International Scientific Conference Monitoring of Geological Processes and Ecological Condition of the Environment Monitoring 2025, 2025
Long term studying of uranium and radium-226 activity in drinking water in some regions of Ukraine and assessment of corresponding hypotetical irradiation doses
Mykhailo Buzynnyi, Liubov Mykhailova
Scientific Reports, 2024
The article summarizes the activity concentrations data of 226 Ra and the sum of uranium isotopes (∑U) in samples of drinking underground water for different regions of Ukraine studied during 1998–2023 in the radiation monitoring laboratory of the State Institution "O.M. Marzieiev Institute of Public Health National Academy of Medical Sciences of Ukraine. Arithmetic mean and standard deviations, minimum and maximum values for 226 Ra and ∑U activity concentrations are presented for the entire 1240 sample set and for each region separately. Collected data show that the established state permissible level for drinking water of 1.0 Bq/l is exceeded for 226 Ra in 1.1% of the studied samples, and for ∑U—in 3.9% correspondingly. The detected high levels of 226 Ra and ∑U activity concentrations correspond to certain regions belonging to the Ukrainian crystalline shield territory. A comparison of the current data with the data of previous studies held during of 1989–1991 indicates a significant difference: for the previous studies the average and standard deviations are much higher. We attribute this to the fact that the centralized sampling of previous studies was random, and it was related exclusively to communal water supply systems. At the same time, the current sample set covers a much larger number of regions, different water consumers; the data set includes the results of repeated studies for a large number of sources, in particular, sources with purified water. Hypothetical exposure doses caused by consumption of 226 Ra and ∑U in water for the current sample set were estimated for different age groups for each sample studied, as is, without taking into account the pattern of water consumption. The corresponding dose exceeds the WHO recommended value of 0.1 mSv per year for children under the age of one year for 220 cases (17.7%). This dose limit excess for other age groups corresponds—for children: aged 12–17 years—13.1%, aged 1–2 years—7.4%, 7–12 years old—5.6%, 2–7 years old—3.9% and for adults—4.1%.
A PERMANENT MATHEMATICAL MODEL OF FILTRATION AND MIGRATION CONDITIONS BETWEEN THE PRIPYAT AND UZH RIVERS OF THE CHORNOBYL EXCLUSION ZONE
Mykola PANASIUK, Natalia SOSONNA, Ihor KOVALENKO, Mykhailo BUZYNNYI, Oleksii SHEVCHENKO, et al.
Visnyk of Taras Shevchenko National University of Kyiv Geology, 2024
Background. Over the past 8–10 years, the radio-hydroecological and hydrogeological conditions of the Chornobyl Exclusion Zone have changed significantly. Under the influence of the decommissioning of the water-containing cooler, the levels, speed and direction of movement of groundwater have changed on a regional scale. New radiation-hazardous objects were created: Storage of spent nuclear fuel (SSNF-2) and Centralized storage of spent nuclear fuel (CSSNF). The impact of climate change on the regime of water bodies has also increased. To study the impact of radiation-hazardous objects on the water environment of the exclusion zone, to forecast changes in hydrogeological conditions under the influence of climate change and man-made loads, it is necessary to create an updated model of filtration and migration conditions with the possibility of its further adjustment and improvement. Methods. In creating and developing a constant mathematical model based on the finite difference method, the geological and hydrogeological conditions of the research area were considered. Spatial constructions were also carried out to visualize the geological structure using GIS technologies. The filtering scheme was drawn up for computational operations. The QGis program was used to construct the surfaces of geological horizons, and the Visual MODFLOW program was used to develop the filtration model. Results. A model of filtration and migration conditions of the Pripyat-Uzh interfluve of the Chornobyl Exclusion Zone was constructed. The distribution of groundwater levels and heads in the Buchach aquifer was obtained. Forecasts of the paths, directions and time limits of the spread of pollutants with underground water from radiation-hazardous objects have been made. We carried out forecasts of the impact of changes in the boundary conditions of the aquifer on the hydrodynamic parameters of groundwater to justify project decisions on improving the network of observation wells and determining the conditions of flooding of the Chornobyl nuclear power plant site. Forecasts of the impact of global warming on the underground water regime have been carried out. Conclusions. The forecast field of pressure distribution demonstrates the possibility of improving the radiological state of groundwater as a result of: increasing the thickness of the aeration zone and its sorption capacity and accelerating self-purification due to the growth of underground flow gradients. It is important that the unloading of polluted groundwater will not take place in the Pripyat River, but in the isolated residual lakes of the former cooling pond. It will take about 20 years for groundwater to reach the lakes from the Chornobyl nuclear power plant site.
Factors influencing the increased 90Sr radioisotope migration in highly alkaline groundwater at Chornobyl NPP site
I.O. Kovalenko, M.I. Panasiuk, N.V. Sosonna, V.E.-I. Khan, M.G. Buzynnyi, et al.
Journal of Environmental Radioactivity, 2024
Estimation of 228Ra Contribution to Exposure Dose for Kyiv Residents Consuming Artesian Water
M. Buzynnyi, R. Pryhodko, L. Mykhailova, M. Panasiuk
Nuclear and Radiation Safety, 2024
У статті наведено опис запровадження високочутливих методів визначення активності ізотопів радію у питній воді і приклад використання цих методів для оцінки доз опромінення мешканців м. Києва від природних радіонуклідів в артезіанській воді. Для вимірювань активності 226Ra, 228Ra і суми ізотопів урану (∑U) використовували α/β-рідинно-сцинтиляційний спектрометр та γ-спектрометр з напівпровідниковим детектором. Характерною рисою запроваджених методів є простота – мінімальна кількість технологічних операцій. Для концентрування радію та виготовлення колонок використано доступні іонообмінні смоли та матеріали. Суму ізотопів урану визначали методом рідинно-сцинтиляційного лічення після екстракції урану розчином трибутилфосфату в орто-ксилолі. Оцінки доз опромінення виконані в термінах отриманої за життя дози з урахуванням вік-залежних дозових та відповідних вагових коефіцієнтів. Досліджено 25 проб артезіанської води, відібраної в м. Києві з артезіанських свердловин та бюветних комплексів. Питома активність 228Ra у досліджених зразках складає від 7 мБк/л до 99 мБк/л. Ці значення відповідають накопиченій за життя дозі опромінення від 6 мкЗв до 90 мкЗв на рік, що для різних джерел може складати від 79,2 % до 97,5 % від загальної дози опромінення, яка враховує надходження з питною водою також урану і радію.
Corrigendum to “Matrix approach for processing liquid scintillation spectra of 14C” [Nucl. Instrum. Methods Phys. Res. A 1054 (2023) 168411] (Nuclear Inst. and Methods in Physics Research, A (2023) 1054, (S0168900223004011), (10.1016/j.nima.2023.168411))
Mykhailo Buzynnyi
Nuclear Instruments and Methods in Physics Research Section A Accelerators Spectrometers Detectors and Associated Equipment, 2023
Matrix approach for processing liquid scintillation spectra of 14C
Mykhailo Buzynnyi
Nuclear Instruments and Methods in Physics Research Section A Accelerators Spectrometers Detectors and Associated Equipment, 2023
TRACES OF 14C EMISSIONS FOR THE OPERATION PERIOD OF TWO UKRAINIAN NPPS: RIVNE AND CHORNOBYL
Mykhailo Buzynnyi, Oleksandr Romanenko, Liubov Mykhailova, Alla Lytvynko, Mykola Panasiuk
Radiocarbon, 2023
Isotope composition of groundwater and surface waters in the area of the Dombrovsky quarry of Kalush-Golinsk deposit of potassium salts
Y.O. Malkova, I.O. Kovalenko, V.V. Dolin, Y.M. Demikhov, M.I. Panasiuk, et al.
Journal of Environmental Radioactivity, 2023
Conditions of 90Sr migration with alkaline groundwater at the Chornobyl Nuclear Power Plant Industrial Site
I. O. Kovalenko, M. I. Panasiuk, N. V. Sosonna, M. G. Buzynnyi, I. P. Onyshchenko
17th International Conference Monitoring of Geological Processes and Ecological Condition of the Environment Monitoring 2023, 2023
Mathematical model of hydrogeological conditions and forecasts of groundwater salinization under the influence of Dombrovsky quarry of Kalush-Golinsky potassium salt deposit
N. Sosonna, M. Panasiuk, Ya. Malkova, I. Kovalenko, S. Bagriy, et al.
17th International Conference Monitoring of Geological Processes and Ecological Condition of the Environment Monitoring 2023, 2023
Generalized Data for 20 Years of Radon-222 Monitoring in Drinking Water of Ukraine
M. Buzynnyi, L. Mykhailova
Nuclear and Radiation Safety, 2022
Thermodynamic modeling of 90Sr migration with alkaline groundwater at the Chornobyl NPP industrial site
I. O. Kovalenko, M. I. Panasiuk, N. V. Sosonna, M. G. Buzynnyi, I. P. Onyshchenko
16th International Conference Monitoring of Geological Processes and Ecological Condition of the Environment Monitoring 2022, 2022
Radioactivity of Bottled Water from Trade Network in Kyiv
M. Buzynnyi, L. Mykhailova
Nuclear and Radiation Safety, 2020
Reconstructing Agriculture in Vitcos Inca Settlement, Peru
Enrique Meseth, Liang‐Chi Wang, Su‐Hwa Chen, Jason C. S. Yu, Michael Buzinny
Irrigation and Drainage, 2015
Current situation and challenges at fukushima: Hands-on measurements of radiation contamination after fukushima daiichi nuclear power plant accident
20th Imeko Tc4 Symposium on Measurements of Electrical Quantities Research on Electrical and Electronic Measurement for the Economic Upturn Together with 18th Tc4 International Workshop on ADC and Dca Modeling and Testing Iwadc 2014, 2014
Dispersion of radon in the atmosphere around old uranium mill tailings
Nukleonika, 2010
Radioactive graphite dispersion in the environment in the vicinity of the chernobyl nuclear power plant
Michael Buzinny
Radiocarbon, 2006
Plutonium and other alpha emitters in mushrooms from Poland, Spain and Ukraine
J.W Mietelski, A.S Baeza, J Guillen, M Buzinny, N Tsigankov, et al.
Applied Radiation and Isotopes, 2002
The distribution of 137Cs and 90Sr in the biomass of pine trees planted in 1987-1988 in the near zone of the Chernobyl nuclear power plant
M Buzinny, I Los', K Shepelevich
Applied Radiation and Isotopes, 2000
14C analysis of annual tree rings from the vicinity of the chernobyl NPP
Michael Buzinny, Ilja Likhtarev, Ivan Los', Nikolay Talerko, Nikolay Tsigankov
Radiocarbon, 1998
Alpha-emitting radionuclide contents in food samples as related to the Chernobyl accident
M. Yamamoto, K. Shiraishi, I. P. Los, I. Y. Kamarikov, M. G. Buzinny
Journal of Radioanalytical and Nuclear Chemistry Letters, 1995
Concentrations of thorium and uranium in freshwater samples collected in the former USSR
K. Shiraishi, Y. Igarashi, M. Yamamoto, T. Nakajima, I. P. Los, et al.
Journal of Radioanalytical and Nuclear Chemistry Articles, 1994
Elemental analysis of freshwater samples collected in the former USSR by inductively coupled plasma mass spectrometry
K. Shiraishi, T. Nakajima, Y. Takaku, A. Tsumura, S. Yamasaki, et al.
Journal of Radioanalytical and Nuclear Chemistry Articles, 1993
Radionuclide contents in environmental samples as related to the Chernobyl accident
K. Shiraishi, Y. Muramatsu, T. Nakajima, M. Yamamoto, I. P. Los, et al.
Journal of Radioanalytical and Nuclear Chemistry Articles, 1993
Application of the track method for radon measurement in Ukraine
V.A. Nikolaev, M.G. Buzynniy, I.B. Vorobiev, A.V. Gromov, A.S. Krivokhatskiy, et al.
International Journal of Radiation Applications and Instrumentation Part, 1993
Application of the track method for radon measurement in Ukraine
V.A. Nikolaev, M.G. Buzynniy, I.B. Vorobiev, A.V. Gromov, A.S. Krivokhatskiy, et al.
Nuclear Tracks and Radiation Measurements 1993, 1993
Tritium contents in water reservoirs and water supply sources in several regions of the Ukrainian S.S.R.
Vestnik Akademii Meditsinskikh Nauk SSSR, 1991
Radon concentration in living accommodations in the Ukrainian S.S.R. in 1989
Vestnik Akademii Meditsinskikh Nauk SSSR, 1991
Peculiarities of the electrophysical characteristics of platinum silicide-silicon contacts under impulsive overloads
M. G. Buzynnyi, V. V. Il'chenko, P. G. Lisnyak, V. I. Strikha
Soviet Physics Journal, 1988

RECENT SCHOLAR PUBLICATIONS

Estimation of Natural Radioactivity in Underground Water Sources for Personal Use in Zhytomyr City and Its Suburbs
M Buzynnyi, R Prihod'ko, L Mykhailova
Scientific reports 15 , 2025
2025
Інтенсифікації досліджень 226Ra, 228Ra і ізотопів урану у питній воді застосуванням іонообмінних смол
МГ Бузинний, РВ Приходько, ЛЛ Михайлова
Актуальні питання громадського здоров'я та екологічної безпеки України … , 2025
2025
Двадцять п’ять років лабораторії радіаційного моніторингу
МГ Бузинний, і інші.
Тридцята міжнародна наукова конференція молодих істориків науки, техніки і … , 2025
2025
Study of 90Sr Increased Migration Conditions with Groundwater in the Zone of Chornobyl NPP Industrial Site Influence
I Kovalenko, M Panasiuk, N Sosonna, G Levin, G Roenko, M Buzynnyi
Aartvork F., Trunova O. Operational environmental monitoring based on the … , 2025
2025
Regarding the possible impact of forest fires on the radioactive pollution of groundwater in the chornobyl exclusion zone
M Panasiuk, M Buzynnyi, S Kirieiev, N Sosonna, I Kovalenko, ...
Scientific reports 15 (1), 13910 , 2025
2025
Citations: 2
Analysis of increasing 90Sr migration with groundwater from the Chornobyl NPP
I Kovalenko, M Panasiuk, M Buzynnyi, N Sosonna, I Onyshchenko, ...
Monitoring’2025. XVIII International Scientific Conference “Monitoring of … , 2025
2025
137Cs daily intake with the foodstuff in the selected cohort of the village Narodychi 30 years after the Chornobyl accident
M Buzynnyi, S Kimura, M Didukh, Y Komasa, L Mykhailova, T Takeuchi
Environmental Monitoring and Assessment. DOI : 10.1007/s10661-025-13759-3 … , 2025
2025
Citations: 1
Estimation of 228Ra contribution to exposure dose for Kyiv residents consuming artesian water.
M Buzynnyi, R Pryhodko, L Mykhailova, M & Panasiuk
Nuclear Radiation Saf., 30–40 , 2024
2024
Уран і радій-226 у воді артезіанських свердловин м.Київ.
МГ Бузинний, ЛЛ Михайлова
Актуальні питання громадського здоров’я та екологічної безпеки України … , 2024
2024
A permanent mathematical model of filtration and migration conditions between the Pripyat and Uzh rivers of the Chornobyl exclusive zone
M Panasiuk, N Sosonna, I Kovalenko, M Buzynnyi, O Shevchenko
Visnyk of Taras Shevchenko National University of Kyiv. Geology, 115-124 , 2024
2024
Factors influencing the increased 90Sr radioisotope migration in highly alkaline groundwater at Chornobyl NPP site
IO Kovalenko, MI Panasiuk, NV Sosonna, VEI Khan, MG Buzynnyi, ...
Journal of Environmental Radioactivity 275, 107431 , 2024
2024
Citations: 2
Long term studying of uranium and radium-226 activity in drinking water in some regions of Ukraine and assessment of corresponding hypotetical irradiation doses
M Buzynnyi, L Mykhailova
Scientific Reports 14 (1), 2530 , 2024
2024
Citations: 11
Isotope Composition of Groundwater and Surface Waters in the Area of the Dombrovsky Quarry of Kalush-Golinsk Deposit of Potassium Salts.
YO Malkova, IO Kovalenko, VV Dolin, YM Demikhov, MI Panasiuk, et al.
Journal of Environmental Radioactivity. 257, 107083 , 2023
2023
Citations: 7
Mathematical model of hydrogeological conditions and forecasts of groundwater salinization under the influence of Dombrovsky Quarry of Kalush-Golinsky Potassium Salt Deposit
N Sosonna, M Panasiuk, Y Malkova, I Kovalenko, S Bagriy, M Buzynnyi
17th international conference monitoring of geological processes and … , 2023
2023
Citations: 2
Conditions of 90Sr migration with alkaline groundwater at the Chornobyl Nuclear Power Plant Industrial Site
IO Kovalenko, MI Panasiuk, NV Sosonna, MG Buzynnyi, IP Onyshchenko
Monitoring’2023 XVII International Scientific Conference “Monitoring of … , 2023
2023
Matrix approach for processing liquid scintillation spectra of 14C
M Buzynnyi
Nuclear Instruments and Methods in Physics Research Section A: Accelerators … , 2023
2023
Практичні аспекти застосування методу черенковського лічення з корекцією кольорового гасіння
МГ Бузинний
Довкілля та здоров'я 107 (2), 40-46 , 2023
2023
Practical aspects of the application of cherenkov counting method with the correction of sample’s color quenching
MG Buzynnyi
Environment & Health., 40–46 , 2023
2023
Citations: 3
Traces of 14C Emissions for the Operation Period of Two Ukrainian NPPs: Rivne and Chornobyl
M Buzynnyi, O Romanenko, L Mykhailova, A Lytvynko, M Panasiuk
Radiocarbon 65 (2), 335-342 , 2023
2023
Citations: 3
Influence of Solution Ionic Strength on the Formation of Increased 90Sr Migration in Groundwater of the Chernobyl NPP Industrial Site
IO Kovalenko, MI Panasiuk, NV Sosonna, GV Levin, PА Lushnia, ...
Nuclear Power and the Environment 1 (26), 47-54 , 2023
2023
Citations: 2

MOST CITED SCHOLAR PUBLICATIONS

НРБУ-97. Державні гігієнічні нормативи. Норми радіаційної безпеки України.
ІА Ліхтарьов, ІП Лось, інш.
К.: , 1997
1997
Citations: 369
Plutonium and other alpha emitters in mushrooms from Poland, Spain and Ukraine.
JW Mietelski, AS Baeza, J Guillen, M Buzinny, N Tsigankov, P Gaca, ...
Applied radiation and isotopes 56 (5), 717-729 , 2002
2002
Citations: 73
Concentrations of thorium and uranium in freshwater samples collected in the former USSR.
K Shiraishi, Y Igarashi, M Yamamoto, T Nakajima, IP Los, AV Zelensky, ...
Journal of radioanalytical and nuclear chemistry 185 (1), 157-165 , 1994
1994
Citations: 42
Measurements of 226Ra, 222Rn and uranium in Ukrainian groundwater using ultra-low-level liquid scintillation counting.
AV Zelensky, MG Buzinny, IP Los
Liquid scintillation spectrometry, 405-411 , 1993
1993
Citations: 41
14C Analysis of Annual Tree Rings from the Vicinity of the Chernobyl NPP.
M Buzinny, I Likhtarev, I Los', N Talerko, N Tsigankov
Radiocarbon 40, 373-380 , 1998
1998
Citations: 37
Загальнодозиметрична паспортизація населених пунктів України, які зазнали радіоактивного забруднення після Чорнобильської аварії. Узагальнені дані за 1996 р. (Збірка 6)
АЮ Романенко, ІА Ліхтарьов, і ін.
1997
Citations: 32
Application of the track method for radon measurement in Ukraine.
VA Nikolaev, MG Buzynniy, IB Vorobiev, AV Gromov, AS Krivokhatskiy, ...
Nuclear Tracks and Radiation Measurements 21 (3), 433-436 , 1993
1993
Citations: 28
The distribution of 137Cs and 90Sr in the biomass of pine trees planted in 1987–1988 in the near zone of the Chernobyl nuclear power plant
M Buzinny, K Shepelevich
Applied Radiation and Isotopes 52 (4), 905-910 , 2000
2000
Citations: 23
Ecological chronology of nuclear fuel cycle sites.
M Buzinny, N Kovalyukh, I Likhtarjov, I Los, V Nesvetajlo, MF Pazdur, ...
Radiocarbon 37 (2), 469-473 , 1995
1995
Citations: 21
Radionuclide contents in environmental samples as related to the Chernobyl accident
K Shiraishi, Y Muramatsu, T Nakajima, M Yamamoto, IP Los, ...
Journal of radioanalytical and nuclear chemistry 171 (2), 319-328 , 1993
1993
Citations: 21
Природна радіоактивність питної води свердловин на території України.
МГ Бузинний
Гігієнічна наука та практика на рубежі століть/Мат. ХІV з'їзду гігієністів … , 2004
2004
Citations: 19
Radiocarbon of accidental release of Chernobyl NPP in annual tree rings.
NN Kovalyukh, VV Skripkin, EV Sobotovich, MG Buzinny, EV Sanin
Zeszyty Naukowe Politechniki Slaskiej 1229, Matematyka- Fizyka Z71 … , 1994
1994
Citations: 19
Дослідження природних радіонуклідів у підземній воді в Україні
МГ Бузинний, ЛЛ Михайлова, ВІ Сахно, МО Романченко
Довкілля та здоров’я, 31-35 , 2011
2011
Citations: 18
Radioactive graphite dispersion in the environment in the vicinity of the Chernobyl Nuclear Power Plant
M Buzinny
Radiocarbon 48 (3), 451-458 , 2006
2006
Citations: 17
Newly designed 0.8-ml Teflon® vial for microvolume radiocarbon dating.
M Buzinny, V Skripkin
Radiocarbon 37 (2), 743-747 , 1995
1995
Citations: 17
Radon - 222 in water: concentrations, doses, standards.
AV Zelensky, MG Buzinny, IP Los
Problems of Radiation Medicine, 71 – 83 , 1993
1993
Citations: 17
Elemental analysis of freshwater samples collected in the former USSR by inductively coupled plasma mass spectrometry.
K Shiraishi, T Nakajima, Y Takaku, A Tsumura, S Yamasaki, I Los, ...
Journal of radioanalytical and nuclear chemistry 173 (2), 313-321 , 1993
1993
Citations: 16
Результаты работ по оценке радиоактивного загрязнения грунтов и подземных вод в районе объекта" Укрытие".
НИ Панасюк, НИ Павлюченко, ВМ Рудько, АМ Алферов, АП Оружий, ...
Проблеми Чорнобиля.-2001.-Вип 7, 97-115 , 2001
2001
Citations: 13
Monitoring 241Pu in Ukrainian soil.
M Buzinny, I Los, N Tsigankov, S Soroka
Advances in Liquid Scintillation Spectrometry, 97-102 , 1996
1996
Citations: 13
Long term studying of uranium and radium-226 activity in drinking water in some regions of Ukraine and assessment of corresponding hypotetical irradiation doses
M Buzynnyi, L Mykhailova
Scientific Reports 14 (1), 2530 , 2024
2024
Citations: 11

GRANT DETAILS

Substantiation of the ways to reduce the natural radionuclides transfer to the environment and human body in uranium mining, extraction and processing sites.

RESEARCH OUTPUTS (PATENTS, SOFTWARE, PUBLICATIONS, PRODUCTS)

Radon and Thoron source. Джерело радону і торону. (Patent)
Method of measurement of volumetric activity of radon in soil gas. (Patent)

CONSULTANCY

Liquid scintillation counting, Radiocarbon dating

Industry, Institute, or Organisation Collaboration

Dokkyo Medical University