FB FindUsonFacebook online 144

Zakład Zastosowań Radioizotopów

Ilustracja kontaktu
Profesor nadzwyczajny w Politechnice Śląskiej, Kierownik Zakładu Zastosowań Radioizotopów
Adres:
ul. Konarskiego 22B/211
Gliwice
44-100
Polska
E-mail:
Ten adres pocztowy jest chroniony przed spamowaniem. Aby go zobaczyć, konieczne jest włączenie w przeglądarce obsługi JavaScript.
Telefon:
+48 32 237 2254
https://www.carbon14.pl/~gadamiec/
Dodatkowe informacje:

Opis

Absolwent kierunku Fizyka Techniczna, dr nauk przyrodniczych (D. Phil., Uniwersytet w Oksfordzie), dr nauk fizycznych (2005). Główne dziedziny badań: datowanie luminescencyjne osadów geologicznych oraz wypalanej ceramiki, własności kwarcu jako naturalnego materiału dozymetrycznego w różnych aspektach datowania luminescencyjnego, zastosowanie algorytmów ewolucyjnych do rozwiązywania problemów optymalizacyjnych. Uczestnik i wykonawca wielu projektów międzynarodowych w czasie pobytu na stażach zagranicznych w Wielkiej Brytanii, Niemczech i Hiszpanii. Redaktor naczelny międzynarodowego czasopisma „Geochronometria”. 

Zespoły badawcze

Publikacje

1) Moska, P., Adamiec, G., Jary, Z., Bluszcz, A., 2017. OSL chronostratigraphy for loess deposits from Tyszowce-Poland. Geochronometria 44, 307–318. http://dx.doi.org/10.1515/geochr-2015-0074
2) Sebastian Miłosz, Konrad Tudyka, Agata Walencik-Łata, Sebastian Barwinek, Andrzej Bluszcz and Grzegorz Adamiec, 2017. Pulse Height, Pulse Shape and Time Interval Analyzer for Delayed α/β Coincidence Counting. IEEE Transactions on Nuclear Science, 64:9, 2536-2542, http://dx.doi.org/10.1109/TNS.2017.2731852
3) Konrad Tudyka, Sebastian Miłosz, Alicja Ustrzycka, Sebastian Barwinek, Wojciech Barwinek, Agata Walencik-Łata, Grzegorz Adamiec, Andrzej Bluszcz, 2017. A low level liquid scintillation spectrometer with five counting modules for 14C, 222Rn and delayed coincidence measurements. Radiation Measurements, 105, 1-6, http://dx.doi.org/10.1016/j.radmeas.2017.06.003
4) Wintle A. G., Adamiec G., 2017. Optically stimulated luminescence signals from quartz: A review. RADIATION MEASUREMENTS, 98, 10-33. DOI: http://dx.doi.org/10.1016/j.radmeas.2017.02.003
5) Panin, A., Adamiec, G., Buylaert, J.-P., Matlakhova, E., Moska, P., Novenko, E., 2017. Two Late Pleistocene climate-driven incision/aggradation rhythms in the middle Dnieper River basin, west-central Russian Plain. Quat. Sci. Rev., 166, 266-288. DOI: http://dx.doi.org/10.1016/j.quascirev.2016.12.002
6) Olszak, J., Adamiec, G., 2016. OSL-based chronostratigraphy of river terraces in mountainous areas, Dunajec basin, West Carpathians: a revision of the climatostratigraphical approach. Boreas 45, 483–493. DOI: http://dx.doi.org/10.1111/bor.12163
7) Tudyka K., Adamiec G., Bluszcz A., 2016, Monte Carlo simulation of series afterpulses induced by He+ in the photomultiplier. Review of Scientific Instruments, 87, 063120; DOI: http://dx.doi.org/10.1063/1.4954511
8) Baryshnikov, G., Panin, A., Adamiec, G., 2015. Geochronology of the late Pleistocene catastrophic Biya debris flow and the Lake Teletskoye formation, Altai Region, Southern Siberia. Int. Geol. Rev. 58, 1780–1794. DOI: http://dx.doi.org/10.1080/00206814.2015.1062733
9) Moska P., Jary Z., Adamiec G., Bluszcz A., 2015, OSL chronostratigraphy of a loess-palaeosol sequence in Zlota using quartz and polymineral fine grains. Radiation Measurements, 81, 23-31
10) Bluszcz A., Adamiec G., Heer A., 2015. Estimation of equivalent dose and its uncertainty in the OSL SAR protocol when count numbers do not follow a Poisson distribution. RADIATION MEASUREMENTS, 81, 46-54
11) Wang X.L., Du J.H., Adamiec G., Wintle A.G., 2015. The origin of the medium OSL component in West Australian quartz. Journal of Luminescence, 159, 147-157
12) Panin A., Adamiec G., Filippov V., 2015, fluvial response to proglacial effects and climate in the upper dnieper valley (western russia) during the late weichselian and the Holocene. QUATERNAIRE, 26:1, 27-48
13) Wang X.L., Wintle A.G., Adamiec G., 2014. Post-IR IRSL production in perthitic feldspar. RADIATION MEASUREMENTS, 64, 1-8
14) Danuta Dzieduszyńska, Joanna Petera-Zganiacz, Juliusz Twardy, Piotr Kittel, Piotr Moska, Grzegorz Adamiec, 2014, Optical Dating And Sedimentary Record From The Terrace Depositional Profile Of The Warta River (Central Poland), GEOCHRONOMETRIA, 41:4, 361–368.
15) Panin, A.V., Adamiec, G., Arslanov, K.A., Bronnikova, M.A., Filippov, V.V., Sheremetskaya, E.D., Zaretskaya, N.E., Zazovskaya, E.P., 2014. Absolute chronology of fluvial events in the Upper Dnieper River system and its palaeogeographic implications. GEOCHRONOMETRIA, 41:3, 278-293
16) Stevens T., Adamiec G., Bird A.F., Luc H., 2013. An abrupt shift in dust source on the Chinese Loess Plateau revealed through high sampling resolution OSL dating. QUATERNARY SCIENCE REVIEWS, 82, 121-132
17) Fedorowicz S., Łanczont M., Bogucki A., Kusiak J., Mroczek P., Adamiec G., Bluszcz A., Moska P., Tracz M., 2013. Loess-paleosol sequence at Korshiv (Ukraine): Chronology based on complementary and parallel dating (TL, OSL), and litho-pedosedimentary analyses. QUATERNARY INTERNATIONAL, 296, 117-130
18) Wiśniewski A., Adamiec G., Badura J., Bluszcz A., Kowalska A., Kufel-Diakowska B., Mikołajczyk A., Murczkiewicz M., Musil R., Przybylski B., Skrzypek G., Stefaniak K., Zych J., 2013. Occupation dynamics north of the Carpathians and Sudetes during the Weichselian (MIS5d-3): The Lower Silesia (SW Poland) case study. QUATERNARY INTERNATIONAL, 294, 20–40
19) Adamiec G., Heer A.J., Bluszcz A., 2012. Statistics of count numbers from a photomultiplier tube and its implications for error estimation. RADIATION MEASUREMENTS, 47(9), 746-751
20) Guerin G., Mercier N., Nathan R., Adamiec G., Lefrais Y., 2012. On the use of the infinite matrix assumption and associated concepts: A critical review. RADIATION MEASUREMENTS, 47(9), 778-785
21) Moska P., Adamiec G., Jary Z., 2012. High resolution dating of loess profile from Bialy Kosciol, south-west Poland. QUATERNARY GEOCHRONOLOGY, 10, 87-93
22) Wang, X. L.; Wintle, A. G.; Adamiec, G., 2012. Improving the reliability of single-aliquot regenerative dose dating using a new method of data analysis. QUATERNARY GEOCHRONOLOGY, 9, 65-74
23) Bailiff I.K. (Guest Editor), Adamiec G. (Guest Editor), Bluszcz A. (Guest Editor), Bos A.J.J. (Guest Editor), Chen R. (Guest Editor), Chruścińska A. (Guest Editor), Duller G.A.T. (Guest Editor), 2012. 13th International Conference on Luminescence and Electron Spin Resonance Dating, 10–14 July, 2011, Toruń, Poland. RADIATION MEASUREMENTS, 47(9), 649–651
24) Oks H., Spooner, N.A., Smith B.W., Prescott J.R., Creighton D.F., McCulloch I., Adamiec G., 2011. Assessment of thermoluminescence peaks in porcelain for use in retrospective dosimetry. RADIATION MEASUREMENTS, 46(12), 1873–1877
25) Adamiec G., Duller G.A.T., Roberts, H.M., Wintle A.G., 2010. Improving the TT-OSL SAR protocol through source trap characterisation. RADIATION MEASUREMENTS, 45(7), 768-777
26) Adamiec, G., Bailey, R. M., Wang, X.L and, Wintle, A.G., 2008. The mechanism of thermally transferred optically stimulated luminescence in quartz. JOURNAL OF PHYSICS D: APPLIED PHYSICS, 41, 135503 (14pp)
27) Pagonis V., Adamiec G., Athanassas C., Chen R., Baker A., Larsen M., Thompson Z., 2011. Simulations of thermally transferred OSL signals in quartz: Accuracy and precision of the protocols for equivalent dose evaluation. NUCLEAR INSTRUMENTS AND METHODS IN PHYSICS RESEARCH SECTION B: BEAM INTERACTIONS WITH MATERIALS AND ATOMS, 269(12), 1431–1443
28) Moska P., Adamiec G., Jary Z., 2011. OSL dating and lithological characteristics of loess deposits from Bialy Kosciol. GEOCHRONOMETRIA, 38(2), 162-171
29) Koul D.K., Adamiec G. and Chougaonkar M.P., 2009. Participation of the R-centres in the sensitization of the OSL signal, JOURNAL OF PHYSICS D: APPLIED PHYSICS, 42, 115110 (9pp)
30) Martin-Martin A., Gutierrez-Villanueva J.L., Munoz J.M., Garcia-Talavera M., Adamiec G. and Iniguez M.P., 2006, Radon measurements with a PIN photodiode. APPLIED RADIATION AND ISOTOPES, 64, 1287-1290
31) Bluszcz A. and Adamiec G., 2006, Application of differential evolution to fitting OSL decay curves. RADIATION MEASUREMENTS, 41, 886-891
32) Adamiec G., Bluszcz A., Bailey R., Garcia-Talavera M., 2006, Finding model parameters: Genetic algorithms and the numerical modelling of quartz luminescence. RADIATION MEASUREMENTS, 41, 897-902
33) Adamiec G., 2005, Investigation of a numerical model of the pre-dose mechanism in quartz. RADIATION MEASUREMENTS, 39, No. 2, 175-189
34) Adamiec G., 2005, Properties of the 360 nm and 550 nm TL emissions of the ‘110°C peak’ in fired quartz. RADIATION MEASUREMENTS, 39, No. 1, 105-110
35) Adamiec G., 2005, OSL decay curves – relationship between single grains and multiple grain aliquots. RADIATION MEASUREMENTS, 39, No. 1, 63-75
36) Adamiec G., Iñiguez M.P., Lorente A., Voytchev M. and Gallego E., 2004, Response of a silicon PIN photodiode around an Am-Be neutron source. NUCLEAR INSTRUMENTS AND METHODS IN PHYSICS RESEARCH A: ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 534, 544-550
37) Steinhof A., Adamiec G., Gleixner G., van Klinken G.J. and Wagner T., 2004, The new 14C-Analysis Laboratory in Jena. RADIOCARBON, 46, 51-58
38) Adamiec G., 2000, Variations in luminescence properties and pre-dose sensitisation of single quartz grains. RADIATION MEASUREMENTS, 32, 427-432
39) Bailey R.M., Adamiec G. and Rhodes E.J., 2000, Optically stimulated luminescence properties of NaCl related to dating. RADIATION MEASUREMENTS, 32, 717-723
40) Göksu H.Y., Stoneham D., Bailiff I.K. and Adamiec G., 1998, A new technique in retrospective TL dosimetry: Pre-dose effect in the 230°C TL glow peak of porcelain. APPLIED RADIATION AND ISOTOPES, 49, 99-104
41) Adamiec G., Stoneham D. and Göksu H.Y., 1997, Accident dose estimation using porcelain. A comparison between different thermoluminescence methods. RADIATION MEASUREMENTS, 27, 389-39

Początek strony