Powstanie i rozwój Laboratorium Metrologii Radionuklidów w Świerku

• Autorzy: Broda R. , Pochwalski K.
• Języki publikacji: PL

Słowa kluczowe

PL

Laboratorium Metrologii Radionuklidów; Świerk; historia

• Wydawca: Polskie Towarzystwo Nukleoniczne
• Czasopismo: Postępy Techniki Jądrowej
• Rocznik: 2011
• Tom: z. 2
• Strony: 14--21
• Opis fizyczny: Bibliogr. 27 poz., rys., fot.

Twórcy

autor

Broda R.

autor

Pochwalski K.

• Instytut Energii Atomowej POLATOM Ośrodek Radioizotopów Otwock – Świerk

Bibliografia

• 1. T. Radoszewski, (1962). 14C and T measurements with aid of a liquid scintillation counter. Nukleonika, Vol. VII, No. 7-8, 499-509.
• 2. W. Łada, T. Radoszewski, (1965). Absolute measurements of radioactivity with 4π counter. Nukleonika, Tom X, 277-285.
• 3. A. Chyliński, T. Radoszewski, (1970). Measurement of the radioactive concentration of 35S solution by tracing with 60Co and using the 4πß-γ coincidence method. Nukleonika, Tom XV, Nr.11-12, 731-738.
• 4. W. Łada, T. Radoszewski, (1971). The 4π liquid scintillation counter method for activity measurement of electron capture nuclides. Liquid Scintillation Counting, Vol. 1, 49-54, Heyden & Son LTD, London.
• 5. T. Radoszewski, T. Terlikowska, (1971). Comparison of counting efficiency for scintillators based on toluene and toluene with Triton X-100 applied to activity measurements of 14C and 3H labelled compounds. Radioisotopy, 12, 5/71, 795-806.
• 6. A. Chyliński, T. Radoszewski, (1975). The 4πß-γ and 4π(x,e)-γ coincidence method with liquid scintillation counter for counting ß-particles, Auger- electrons or X-rays. Nukleonika, Vol. 20, No. 5, 469-482.
• 7. K. Pochwalski, T. Radoszewski, (1979). Disintegration rate determination by liquid scintillation counting using the triple to double coincidence ratio (TDCR) method, IBJ Report, INR 1848/OPiDI/E/A
• 8. A. Chyliński, T. Radoszewski, (1980). 4π(αß)-γ two-stage coincidence method with liquid scintillation counter in α,ß-channel for absolute determination of radioactive concentration. Isotopenpraxis, Bd. 17, H. 3, 118-121.
• 9. A. Chyliński, T. Radoszewski, T. Kempisty, (1983). Application of two-stage 4π(LS)-γ coincidence method in the measurement of 75Se activity. Int. J. Appl. Isot., 34:8, 1175-1180.
• 10. A. Chyliński, T. Radoszewski, (1987). Standardization of 109Cd by a 4π(LS)e-x coincidence method. Appl. Radiat. Isot., Vol.38, No.10, 777- 780.
• 11. R. Broda, K. Pochwalski, T. Radoszewski, (1988). Calculation of liquid - scintillation detector efficiency. Appl. Radiat. Isot., vol. 39, No. 2, 159-164.
• 12. K. Pochwalski, R. Broda, T. Radoszewski, (1988). Standardization of pure beta emitters by liquid - scintillation counting. Appl. Radiat. Isot., Vol. 39, No. 2, 165-172.
• 13. T. Kempisty, K. Pochwalski, T. Radoszewski, T. Terlikowska-Droździel, (1990). Measurement of 170Tm photon and electron emission probabilities. Nucl. Instr. Meth. Phys. Res., A 286, 535-538.
• 14. A. Chyliński, (1992). A new version of the tracer technique for absolute measurements of EC emitters. Nucl. Instr. Meth. Phys. Res., A 312, 59-63.
• 15. T. Terlikowska-Droździel, T. Radoszewski, (1992). Investigation of radioactive counting samples of selected radionuclides in various liquid scintillators. Nucl. Instr. Meth. Phys. Res. A312, 100-103.
• 16. R. Broda, K. Pochwalski, (1992). The enhanced triple to double coincidence ratio (ETDCR) method for standardization of radionuclides by liquid scintillation counting. Nucl. Instr. Meth. Phys. Res., A 312, 85-89.
• 17. T. Kempisty, K. Pochwalski, (1992). Measurement of the photon emission probabilities in the decay of 182Ta and 185W. Nucl. Instr. Meth. Phys. Res., A 312, 390-395.
• 18. R. Broda, K. Pochwalski, (1992). The ETDCR method of standardizing 55Fe and 54Mn. Liquid Scintillation Spectrometry, 255-260, ed. J.E. Noakes, F. Schőnhofer, H.A. Polach, RADIOCARBON, USA, 1993.
• 19. A. Chyliński, T. Radoszewski, (1993). Liquid scintillation standardization of 133Ba. Liquid Scintillation Spectrometry 1992, pp. 269-274, ed. J.E. Noakes, F. Schőnhofer, H.A. Polach, RADIOCARBON, USA.
• 20. T. Terlikowska-Droździel, T. Radoszewski, (1994). An investigation of the various liquid scintillators used to count low-level emitters. Nucl. Instr. Meth. Phys. Res., A 339, 21-25.
• 21. A. Chyliński, T. Radoszewski, (1996). Generalised tracer method 4π(LS)-γ for standardization of pure beta emitters. Nucl. Instr. Meth. Phys. Res., A 369, 336-339.
• 22. T. Terlikowska, P. Cassette, M. Péron, D. Hainos, L. Tartes, R. Broda, T. Kempisty (1998). Study of stability of 63Ni sources in Ultima Gold liquid scintillation cocktail. Appl. Radiat. Isot., Vol.49, No. 9-11, 1041-1047.
• 23. A. Chyliński, T. Radoszewski, T. Terlikowska- Droździel, A. Jęczmieniowski (2000), A multimethodic and multiparametric system for standardisation of radionuclides. Appl. Radiat. Isot., Vol. 52, 663-667.
• 24. T. Terlikowska, D. Hanois, P. Cassette, T. Radoszewski, (2000). Application of α/ß discrimination in liquid scintillation counting for the purity control of 99mTc medical solution. Appl. Radiat. Isot., Vol. 52, 627-632.
• 25. R. Broda, K. Małetka, T. Terlikowska, P. Cassette, (2002). Study of the influence of the LS-coctail composition for the standardisation of radionuclides using the TDCR model. Appl. Radiat. Isot., Vol.56, No.1-2, 285-289.
• 26. A. Chyliński, R. Broda, T. Radoszewski, (2003). The National Standard Unit of Radionuclide Activity and the related standards in Poland. NUKLEONIKA, No.48 (1), 51-55.
• 27. R. Broda, P. Cassette, K. Kossert, (2007). Radionuclide metrology using liquid scintillation counting. Special issue: Radionuclide metrology. Metrologia, 44, 36-52.