Hostname: page-component-586b7cd67f-r5fsc Total loading time: 0 Render date: 2024-11-29T01:37:26.298Z Has data issue: false hasContentIssue false

Tata Institute Radiocarbon Date List IV

Published online by Cambridge University Press:  18 July 2016

D. P. Agrawal
Affiliation:
Tata Institute of Fundamental Research, Bombay-5, India
Sheela Kusumgar
Affiliation:
Tata Institute of Fundamental Research, Bombay-5, India
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.

All measurements reported in the previous date lists (Kusumgar et al., 1963a; Agrawal et al., 1964 and 1965a) were based on acetylene counting. Since September 1964 we have changed over to methane counting and all dates presented here are based on this method. Methane counting offers certain advantages over acetylene, e.g., (1) rapid synthesis, (2) the non-explosive nature of gas, (3) the synthesized gas is radon-free. The disadvantage of having only one atom per molecule in methane (CH4), as against two in acetylene (C2H2), is compensated by the fact that methane can be counted at higher pressures with relatively low operating voltages.

Type
Research Article
Copyright
Copyright © The American Journal of Science 

References

Agrawal, D. P., 1964, Harappa culture: new evidence for a shorter chronology: Science, v. 143, p. 950952.Google Scholar
Agrawal, D. P., 1966, G14 dates, Banas culture and the aryans: Current Sci., v. 35. p. 114117.Google Scholar
Agrawal, D. P., Kusumgar, S., Lal, D., and Sarna, R. P., 1964, Tata Institute radiocarbon date list II: Radiocarbon, v. 6, p. 226232.Google Scholar
Agrawal, D. P., Kusumgar, S., and Lal, D., 1965a. Tata Institute radiocarbon date list III: Radiocarbon, v. 7, p. 291295.Google Scholar
Agrawal, D. P., Kusumgar, S., and Lal, D., 1965b, The measurement of C14 activity and some determinations of ages of archaeological samples: Current Sci., v. 34, p. 394397.Google Scholar
Agrawal, D. P., and Lal, D., 1965, Radiocarbon dates in Indian archaeology: Uttar Pradesh, in press.Google Scholar
Anand, J., and Lal, D., 1964, A method for the synthesis of methane from water for tritium measurements: Nature, v. 201, p. 775777.Google Scholar
Kusumgar, S., Lal, D., and Sarna, R. P., 1963a, Tata Institute radiocarbon date list I: Radiocarbon, v. 5, p. 273282.Google Scholar
Kusumgar, S., Lal, D., and Sharma, V. K., 1963b, Radiocarbon dating: techniques: Proc. Ind. Acad. Sci., v. 58, p. 125140.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.Google Scholar