Testing and assessment of high-precision and high-accuracy AMS-radiocarbon measurements at Nanjing University, China

Hongyan Zhang; Huayu Lu; Yao Gu; Pengyu Lin; Jiangfeng Shi; Shiyuan Shi; Chenghong Liang; Xianyan Wang; Wenling An; Tao Ma; Steven W. Leavitt

doi:10.1017/RDC.2024.70

Testing and assessment of high-precision and high-accuracy AMS-radiocarbon measurements at Nanjing University, China

Hongyan Zhang, Huayu Lu, Yao Gu, Pengyu Lin, Jiangfeng Shi, Shiyuan Shi, Chenghong Liang, Xianyan Wang, Wenling An, Tao Ma, Steven W. Leavitt

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

In 2018, an Ionplus 200 kV MIni-CArbon DAting System (MICADAS) accelerator mass spectrometer (AMS) was installed at the Laboratory of AMS Dating and the Environment, Nanjing University (NJU-AMS Laboratory), China. The NJU-AMS Laboratory is largely devoted to research on radiocarbon dating and ¹⁴C analysis in fields of earth, environmental and archaeological sciences. The laboratory has successfully employed various pretreatment methods, including routine pretreatment of tree rings, buried wood and subfossil wood, seeds, charcoal, pollen concentrates, organic matter, and shells. In this study, operational status of the NJU-AMS is presented, and results of radiocarbon measurements made on different sample types are reported. Measurements on international standards, references of known age, and blank samples demonstrate that the NJU-AMS runs stably and has good reproducibility on measurement of single samples. The facility is capable of measuring ¹⁴C in samples with the precision and accuracy that meet the requirements for investigating annual ¹⁴C changes, history-prehistory age dating, and Late Quaternary stratigraphic chronology research.

Original language	English (US)
Pages (from-to)	568-579
Number of pages	12
Journal	Radiocarbon
Volume	66
Issue number	3
DOIs	https://doi.org/10.1017/RDC.2024.70
State	Published - Jun 1 2024

Keywords

archaeological dating
Late Quaternary chronology
MICADAS
radiocarbon dating
tree-ring C changes

ASJC Scopus subject areas

Archaeology
General Earth and Planetary Sciences

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title = "Testing and assessment of high-precision and high-accuracy AMS-radiocarbon measurements at Nanjing University, China",

abstract = "In 2018, an Ionplus 200 kV MIni-CArbon DAting System (MICADAS) accelerator mass spectrometer (AMS) was installed at the Laboratory of AMS Dating and the Environment, Nanjing University (NJU-AMS Laboratory), China. The NJU-AMS Laboratory is largely devoted to research on radiocarbon dating and 14C analysis in fields of earth, environmental and archaeological sciences. The laboratory has successfully employed various pretreatment methods, including routine pretreatment of tree rings, buried wood and subfossil wood, seeds, charcoal, pollen concentrates, organic matter, and shells. In this study, operational status of the NJU-AMS is presented, and results of radiocarbon measurements made on different sample types are reported. Measurements on international standards, references of known age, and blank samples demonstrate that the NJU-AMS runs stably and has good reproducibility on measurement of single samples. The facility is capable of measuring 14C in samples with the precision and accuracy that meet the requirements for investigating annual 14C changes, history-prehistory age dating, and Late Quaternary stratigraphic chronology research.",

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author = "Hongyan Zhang and Huayu Lu and Yao Gu and Pengyu Lin and Jiangfeng Shi and Shiyuan Shi and Chenghong Liang and Xianyan Wang and Wenling An and Tao Ma and Leavitt, {Steven W.}",

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T1 - Testing and assessment of high-precision and high-accuracy AMS-radiocarbon measurements at Nanjing University, China

AU - Zhang, Hongyan

AU - Lu, Huayu

AU - Gu, Yao

AU - Lin, Pengyu

AU - Shi, Jiangfeng

AU - Shi, Shiyuan

AU - Liang, Chenghong

AU - Wang, Xianyan

AU - An, Wenling

AU - Ma, Tao

AU - Leavitt, Steven W.

N1 - Publisher Copyright: © The Author(s), 2024.

PY - 2024/6/1

Y1 - 2024/6/1

N2 - In 2018, an Ionplus 200 kV MIni-CArbon DAting System (MICADAS) accelerator mass spectrometer (AMS) was installed at the Laboratory of AMS Dating and the Environment, Nanjing University (NJU-AMS Laboratory), China. The NJU-AMS Laboratory is largely devoted to research on radiocarbon dating and 14C analysis in fields of earth, environmental and archaeological sciences. The laboratory has successfully employed various pretreatment methods, including routine pretreatment of tree rings, buried wood and subfossil wood, seeds, charcoal, pollen concentrates, organic matter, and shells. In this study, operational status of the NJU-AMS is presented, and results of radiocarbon measurements made on different sample types are reported. Measurements on international standards, references of known age, and blank samples demonstrate that the NJU-AMS runs stably and has good reproducibility on measurement of single samples. The facility is capable of measuring 14C in samples with the precision and accuracy that meet the requirements for investigating annual 14C changes, history-prehistory age dating, and Late Quaternary stratigraphic chronology research.

AB - In 2018, an Ionplus 200 kV MIni-CArbon DAting System (MICADAS) accelerator mass spectrometer (AMS) was installed at the Laboratory of AMS Dating and the Environment, Nanjing University (NJU-AMS Laboratory), China. The NJU-AMS Laboratory is largely devoted to research on radiocarbon dating and 14C analysis in fields of earth, environmental and archaeological sciences. The laboratory has successfully employed various pretreatment methods, including routine pretreatment of tree rings, buried wood and subfossil wood, seeds, charcoal, pollen concentrates, organic matter, and shells. In this study, operational status of the NJU-AMS is presented, and results of radiocarbon measurements made on different sample types are reported. Measurements on international standards, references of known age, and blank samples demonstrate that the NJU-AMS runs stably and has good reproducibility on measurement of single samples. The facility is capable of measuring 14C in samples with the precision and accuracy that meet the requirements for investigating annual 14C changes, history-prehistory age dating, and Late Quaternary stratigraphic chronology research.

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KW - Late Quaternary chronology

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KW - radiocarbon dating

KW - tree-ring C changes

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Testing and assessment of high-precision and high-accuracy AMS-radiocarbon measurements at Nanjing University, China

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