The performance of the Noblesse multi-collector noble gas mass spectrometer for 40Ar/39Ar geochronology
暂无分享,去创建一个
[1] L. Mei,et al. Automatic 40Ar/39Ar Dating Techniques Using Multicollector ARGUS VI Noble Gas Mass Spectrometer with Self-Made Peripheral Apparatus , 2018, Journal of Earth Science.
[2] P. Renne,et al. Intercalibration and age of the Alder Creek sanidine 40Ar/39Ar standard , 2017 .
[3] M. Honda,et al. Performance of the High Resolution, Multi-collector Helix MC Plus Noble Gas Mass Spectrometer at the Australian National University , 2016, Journal of The American Society for Mass Spectrometry.
[4] P. Sobol,et al. Re-evaluation of the ages of 40 Ar/ 39 Ar sanidine standards and supereruptions in the western U.S. using a Noblesse multi-collector mass spectrometer , 2016 .
[5] Jeongmin Kim,et al. 40Ar/39Ar age determination using ARGUS VI multiple-collector noble gas mass spectrometer: performance and its application to geosciences , 2015, Journal of Analytical Science and Technology.
[6] C. Lo,et al. YBCs sanidine: A new standard for 40Ar/39Ar dating , 2014 .
[7] D. Phillips,et al. Ultra-high precision 40Ar/39Ar ages for Fish Canyon Tuff and Alder Creek Rhyolite sanidine: New dating standards required? , 2013 .
[8] M. Storey,et al. Age intercalibration of 40Ar/39Ar sanidine and chemically distinct U/Pb zircon populations from the Alder Creek Rhyolite Quaternary geochronology standard , 2013 .
[9] T. Ireland. Invited review article: Recent developments in isotope-ratio mass spectrometry for geochemistry and cosmochemistry. , 2013, The Review of scientific instruments.
[10] M. Storey,et al. A Refined Astronomically Calibrated 40Ar/39Ar Age for Fish Canyon Sanidine , 2011 .
[11] M. Grove,et al. Calibration of Nu-Instruments Noblesse multicollector mass spectrometers for argon isotopic measurements using a newly developed reference gas , 2011 .
[12] P. Renne,et al. Response to the comment by W.H. Schwarz et al. on Joint determination of 40K decay constants and 40 , 2011 .
[13] C. Swisher,et al. Mass discrimination monitoring and intercalibration of dual collectors in noble gas mass spectrometer systems , 2010 .
[14] Finlay M. Stuart,et al. The ARGUS multicollector noble gas mass spectrometer: Performance for 40Ar/39Ar geochronology , 2009 .
[15] B. Marty,et al. Neon isotopic measurements using high‐resolution, multicollector noble gas mass spectrometer: HELIX‐MC , 2009 .
[16] P. Renne,et al. Synchronizing Rock Clocks of Earth History , 2008, Science.
[17] M. Cosca. 40Ar/39Ar Geochronology by Multi-collector Mass Spectrometry , 2007 .
[18] J. Severinghaus,et al. A redetermination of the isotopic abundances of atmospheric Ar , 2006 .
[19] Anthony A. P. Koppers,et al. ArArCALC-software for 40 Ar/ 39 Ar age calculations , 2002 .
[20] P. Renne,et al. Corrigendum to ``Intercalibration of standards, absolute ages and uncertainties in 40Ar/39Ar dating'' [Chemical Geology 145 (1998) 117-152]1PII of original article: S009-2541(97)00159-91 , 1998 .
[21] D. York,et al. Geochronology, stratigraphy and geochemistry of Cindery Tuff in Pliocene hominid-bearing sediments of the Middle Awash, Ethiopia , 1984, Nature.
[22] Grenville Turner,et al. Potassium‐argon dating by activation with fast neutrons , 1966 .
[23] K. Kuiper,et al. Astronomical calibration of 40Ar/39Ar reference minerals using high-precision, multi-collector (ARGUSVI) mass spectrometry , 2017 .
[24] Sa Hai. Intercalibration of ZBH-25 biotite reference material untilized for K-Ar and ~(40)Ar-~(39)Ar age determination , 2006 .
[25] Ian McDougall,et al. Geochronology and thermochronology by the [40]Ar/[39]Ar method , 1999 .