employee
Russian Federation
Russian Federation
employee
Russian Federation
GRNTI 76.33 Гигиена и эпидемиология
GRNTI 76.03 Медико-биологические дисциплины
OKSO 31.06.2001 Клиническая медицина
OKSO 31.08.08 Радиология
OKSO 32.08.12 Эпидемиология
OKSO 14.04.02 Ядерные физика и технологии
BBK 534 Общая диагностика
BBK 51 Социальная гигиена и организация здравоохранения. Гигиена. Эпидемиология
TBK 5712 Медицинская биология. Гистология
TBK 5734 Медицинская радиология и рентгенология
TBK 6212 Радиоактивные элементы и изотопы. Радиохимия
TBK 5708 Гигиена и санитария. Эпидемиология. Медицинская экология
The main common means and methods of neutron radiation dosimetry. Consideration of various means and methods for detecting high-energy neutron radiation: ● Activation ● Tracking ● Bubble detectors ● TEPC ● Moderator + converter
dosimetry, high-energy radiation, proton accelerators, radiation safety
1. Ckrinskiy A.N. Uskoritel'nye i detektornye perspektivy fiziki elementarnyh chastic UFN. T. 138 C. 3-43. 1982. DOI:https://doi.org/10.3367/UFNr.0138. 198209a.0003
2. Agafonov A.V. Uskoriteli v medicine // Mater. 15-go soveschaniya po uskoritelyam zaryazhennyh chastic. T.2. 1991.
3. Knyazev V.V., Komochkov M.M., Lebedev V.N., Mescherova I.V., Mosharov A.I. Radiacionnaya bezopasnost' na uskoritelyah protonov vysokoy energii // Atomnaya energiya. 1969. T. 27, № 3.
4. Egorova M.S. Harakteristiki vtorichnogo izlucheniya ot protonnogo uskoritelya na 7 GeV. M.: Institut biofiziki MZ SSSR, 1966.
5. Aleynikov V.E., Komochkov M.M. Dozimetricheskie harakteristiki poley izlucheniya yaderno-fizicheskih ustanovok OIYaI i adekvatnost' pokazaniy detektorov doze radiacii. 1981.
6. Alexeev AG, Kharlampiev SA. Dosimetric Characteristics of the IHEP Neutron Reference Fields // Rad. Prot. Dosim. 1997. V.70, No. 1-4. P. 341-344.
7. MU 2.6.5.028-2016. Opredelenie individual'nyh effektivnyh i ekvivalentnyh doz i organizaciya kontrolya professional'nogo oblucheniya v usloviyah planiruemogo oblucheniya. Obschie trebovaniya.
8. MU 2.6.5.026-2016. Dozimetricheskiy kontrol' vneshnego professional'nogo oblucheniya. Obschie trebovaniya: Metodicheskie ukazaniya.
9. Yurevich V.I. Spektrometriya vysokoenergeticheskih neytronov. Dubna: OIYaI, 2012.
10. Krasavin E.A., Boreyko A.V., Koltovaya N.A., Govorun R.D., Komova O.V., Timoshenko G.N. Radiobiologicheskie issledovaniya v OIYaI. Dubna: OIYaI, 2015. 182 s.
11. Sannikov A.V., Peleshko V.N., Savickaya E.N., Kupcov S.I., Suharev M.M. Mnogosharovoy spektrometr neytronov na osnove seriynogo pribora RSU-01: Preprint IFVE 2007−21. Protvino, 2007. 12 s.
12. Kompleks avariynoy neytronnoy dozimetrii “KORDON-A”: Opisanie tipa sredstva izmereniya.
13. Rekomendacii po pribornomu obespecheniyu dozimetricheskogo i radiometricheskogo kontrolya v sootvetstvii s NRB-99 i OSPORB-99.
14. Alekseev A.G., Baranenkov N.N., Bystrov Yu.V. Issledovanie chuvstvitel'nosti individual'nogo neytronnogo dozimetra PDM-303 k vysokoenergeticheskomu neytronnomu izlucheniyu // Mater. XVI soveschaniya po uskoritelyam zaryazhennyh chastic, 20-22 oktyabrya 1998 g. Protvino: GNC RF Institut fiziki vysokih energiy, 1998.
15. Mokrov Yu.V. Razrabotka metodov i sredstv metrologicheskogo obespecheniya radiacionnogo kontrolya neytronnogo izlucheniya na uskoritelyah i impul'snyh reaktorah: Avtoref. Dubna, 1998.
16. Sanitarnye pravila razmescheniya i ekspluatacii uskoriteley protonov s energiey bolee 100 MeV.
17. Cov'yanov A.G., Gancovskiy P.P., Shandala N.K., Shinkarev S.M., Romanov V.V. Problemy obespecheniya radiacionnoy bezopasnosti personala pri ekspluatacii terapevticheskih uskoriteley protonov na primere centra protonnoy terapii v Dmitrovgrade // Medicinskaya radiologiya i radiacionnaya bezopasnost'. 2019. T. 64, № 2 S. 33-40. DOI: 10.12737/ article_5ca5e40c3f79b9.76178616
18. Alekseev A.G., Bystrov Yu.V., Golovachik V.T., Harlampiev S.A. Dozimetr smeshannogo izlucheniya na osnove ionizacionnyh kamer dlya metrologicheskogo obespecheniya radiacionnogo kontrolya na uskoritele: Preprint IFVE 98-68. Protvino, 1998.
19. Komochkov M.M., Lebedev V.N. Prakticheskoe rukovodstvo po radiacionnoy bezopasnosti na uskoritelyah zaryazhennyh chastic. M.: Energoatomizdat, 1986.
20. Egorova M.C. Radiacionno-dozimetricheskaya harakteristika usloviy truda na protonnom sinhrotrone s energiey 7 GeV. M.: Institut biofiziki MZ SSSR, 1967.
21. Krupnyy G.I., Stecenko G.N., Yanovich A.A. Metodicheskie voprosy ispol'zovaniya porogovyh aktivacionnyh detektorov v radiacionnyh issledovaniyah na uskoritel'nom komplekse IFVE. Protvino: GNC RF IFVE, 2000.
22. Kazumasa S, Takeshi I, Toshiso K. Design of a High Energy Neutron Dosimeter Using CR-39 with Multi-Layer Radiator // Radiation Measurements. 2011. V.46, Issue 12, December. P. 1778-1781.
23. Goldobin V.N., Shirokov A.Yu., Mynkina N.V., Peleshko V.N. Gigienicheskaya ocenka usloviy truda personala instituta fiziki vysokih energiy i monitoring nekotoryh pokazateley zdorov'ya // Medicina ekstremal'nyh situaciy. 2018. T. 20. № 1.
24. Komochkov M.M., Mokrov Yu.V. Individual'nyy dozimetricheskiy kontrol' v OIYaI. Soobscheniya ob'edinennogo instituta yadernyh issledovaniy. R16-94-178. Dubna, 1994.
25. Gel'fand E.K., Komochkov M.M., Man'ko B.V., Salackaya M.Ya., Sychev B.S. Ispol'zovanie metoda IFKn dlya opredeleniya ekvivalentnoy dozy izlucheniya za zaschitoy uskoriteley protonov // Atomnaya energiya. 1980. T.49. Vyp. 2. S. 108-112.
26. Sannikov A.V. Razvitie metodov spektrometrii neytronnogo izlucheniya na bol'shih protonnyh uskoritelyah: Avtoref. Protvino, 2006.
27. Clinton P., Anderson Meson., Michael W., Mallett Dennis G., Vasilik George J., Littlejohn Joseph R. High-Energy Neutron Dosimetry at TKE Physics Facility Cortez. Los Alamos National Laboratory, 1990.
28. Akselrod M.S. Fundamentals of Materials, Techniques, and Instrumentation for OSL and FNTD Dosimetry Concepts and Trends in Medical Radiation Dosiumetry // Proceedings of SSD Summer School. AIP Conference Proceedings. 2011. V.1345, Issue 1. P. 274-302.
29. Alexeev A.G. Application of Tissue Equivalent Proportional Counter in IHEP Radiation Protection: IHEP Preprint 95-69. Protvino Publ., 1995.
30. Alexeev A.G., Kharlampiev S.A. Energy Response of Tissue Equivalent Proportional Counter for Neutron Above 20 MeV: IHEP Preprint 97-18. Protvino Publ., 1997.
31. Nunomiya T., Nakao N., Kim E., Kurosawa T., Taniguchi S., Sasaki M., Iwase H., Nakamura T., Uwamino Y., Shibata T., Ito S., Perry D.R. & Wright P. Measurements of Neutron Attenuation through Iron and Concrete at ISIS // Journal of Nuclear Science and Technology. 2000. Suppl. 1 (March). P. 158-161.
32. Improved Response of Bubble Detectors' to High-Energy Neutrons Stefano Agosteo Marco Silari and Luisa Uirid? Politecnico di Milano, Dipartimento di Ingegneria Nucleare. Milan, Italy CERN, 1211 Geneva 23, Switzerland.
33. Kryuchkov V.P. Adronnyy dozimetr: Patent na izobretenie. SU 1521057.
34. Mamaev A.M., Peleshko V.N., Savickaya E.N., Sannikov A.V., Suharev M.M., Suhih S.E. Passivnyy dozimetr neytronov s rasshirennym diapazonom energiy dlya vysokoenergeticheskih uskoriteley. Protvino, 2019.
35. Peleshko V.N., Savickaya E.N., Sannikov A.V. Optimizaciya konstrukcii dozimetra neytronov s rasshirennym diapazonom energiy dlya vysokoenergeticheskih uskoriteley. Protvino, 2014.
36. Beskrovnaya L.G., Guseva S.V., Timoshenko G.N. Metod monitorirovaniya poley neytronov vokrug vysokoenergeticheskih uskoriteley // Pis'ma v EChAYa. 2018. T.15, №3(215). S. 286-294.
37. Dinara N., Pozzia F., Silaria M., Puzob P., Chiriottic S., Saint-Hubertc M.De., Vanhaverec F., Hoeyc O.Van, Orchardd G.M., Wakerd A.J. Instrument Intercomparison in the High-Energy Field at the CERN-EU Reference Field (CERF) Facility and Comparison with the 2017 FLUKA Simulations.
38. Olsher, et al. // Health Physics. 2000. V. 79, No. 2. P. 170ff.
39. Bhaskar Mukherjee, Wolfgang Clement, Stefan Simrock. Neutron Field Characterisation in a High-Energy Proton-Synchrotron Environment Using Bubble Detectors // Radiation Measurements. 2008. V. 43, Issues 2-6, February-June. P. 554-557.
