Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-11-22T11:07:43.172Z Has data issue: false hasContentIssue false

Lodz Radiocarbon Dates I

Published online by Cambridge University Press:  18 July 2016

Andrzej Kanwiszer
Affiliation:
Archaeological and Ethnographical Museum in Lódź, 91-415 Lódź, pl Wolności 14, Poland
Pawel Trzeciak
Affiliation:
Archaeological and Ethnographical Museum in Lódź, 91-415 Lódź, pl Wolności 14, Poland
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The Radiocarbon Laboratory of the Archaeological and Ethnographical Museum in Lódź was established to meet the growing demand for radiocarbon dating of archaeologic and geologic samples. The liquid scintillation technique based on the Polish liquid scintillation counter with a single photomultiplier began operation in 1966. The base for the measurements was ethylbenzene. In 1974 new facilities for the determination of radiocarbon assays were installed. The proportional counter and the electronics supplied by Nuclear Enterprises became routine counting equipment two years later.

Type
Date Lists
Copyright
Copyright © The American Journal of Science 

References

Barker, H, Burleigh, R, and Meeks, N, 1969, New method for the combustion of samples for radiocarbon dating: Nature, v 221, p 4950.Google Scholar
Bem, H, Gębicka, E, Gębicki, J, and Kanwiszer, A, 1978, The CO2 preparation from samples of low carbon concentration for methane synthesis in radiocarbon dating: Radiochem Radioanal Letters, v 35, no. 3, p 133138.Google Scholar
Borówka-Dłuzakowa, Z, 1957, Interglacjały Suwalszczyzny i terenów sasiednich: Acta Geol Pol, v 7, no. 4.Google Scholar
Fairhall, A W, Schell, W R, and Takashima, Y, 1961, Apparatus for methane synthesis for radiocarbon dating: Rev Sci Instruments, v 32, p 323325.CrossRefGoogle Scholar
Gabałówna, L, 1970, Pi. A with charred wheat from TRB habitation Site 1 at Radziejów Kujawski: Prace Materiały Muz Archeol Etnograf Lodzi, v 17, p 157163.Google Scholar
Grygiel, R, 1977, Settlements of the Linear pottery (Danubian) culture at Brześć Kujawski near Włocławek: Prace Materiały Muz Archeol Etnograf Lodzi, v 23, p 5111.Google Scholar
Jersak, J, 1965, Stratygrafia i geneza lessów okolic Kunowa: Acta Geog Lodziensia, v 20.Google Scholar
Krajewski, K, 1976, Póznoplejstoceńskie i holoceńskie procesy wydmotwórcze w pradolinie Warszawsko-Berlińskiej w widłach Warty i Neru: Acta Geog Lodziensia, v 39.Google Scholar
Libby, W F, 1952, Radiocarbon dating: Chicago, Univ Chicago Press, 124 P.Google Scholar
Manikowska, B, 1977, The development of soil cover: Quaest Geog, v 4.Google Scholar
Marsz, A, 1966, Geneza wydm łebskich w swietle współczesnych procesów brzegowych: Prace Kom Geog-Geol Pozn Tow Przyjaciół Nauk, v 4, no. 4.Google Scholar
Straszewska, K, 1968, Stratygrafia Plejstocenu i paleogeomorfologia rejonu dolnego Bugu: Studies Geog Poland, v 23.Google Scholar
Switsur, V R, 1974, A new sample combustion bomb for radiocarbon dating: Appl Radiation and Isotopes Jour, v 25, p 113117.CrossRefGoogle Scholar
Switsur, V R, Hall, M A, and West, R G, 1970, University of Cambridge natural radiocarbon measurements IX: Radiocarbon, v 12, p 590598.CrossRefGoogle Scholar
Wasylikowa, K, 1976, Roślinność i klimat Póznego Glacjału: Perygl Biul, v 13.Google Scholar