Rb‐Sr resonance ionization geochronology of the Duluth Gabbro: A proof of concept for<i>in situ</i>dating on the Moon

Anderson, F. S.; Levine, Jonathan L; Whitaker, T. J.

doi:10.1002/rcm.7253

Cited by 18 publications

(26 citation statements)

References 50 publications

(77 reference statements)

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“…Other authors reported similar issues and mostly attributed the source of the distortions to a lack of shot‐to‐shot stability of the ablation laser . In particular, when Q‐switched lasers (eg, Nd:YAG laser operating in the ns pulse range) are used, the shot‐to‐shot fluctuations of the pulse are commonly in the range of a few percent, but values high as 40% were measured in our previous measurements .…”

Section: Introductionsupporting

confidence: 52%

A method for improvement of mass resolution and isotope accuracy for laser ablation time‐of‐flight mass spectrometers

Wiesendanger

Tulej

Grimaudo

et al. 2018

Journal of Chemometrics

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Accumulation of spectra is a common approach for improvement of the signalto-noise ratio (SNR) in mass spectrometry. However, severe degradation of the overall spectrum can occur if some individual mass spectra, affected by peak broadening, are included in the accumulation process. In this contribution, we discuss potential sources and effects of spectral distortions by using examples from mass spectra acquired by our miniature laser ablation/ionisation time-of-flight mass spectrometer. We show how recent developments in acquisition systems enable to identify individual spectra subjected to peak broadening and present a filtering method capable of systematic and reproducible exclusion of such spectra from the accumulation process. We show that the method can be used on a wide range of materials and present a detailed case study performed on a trevorite mineral sample. Using this method, improvements of the isotope accuracy of Si, Ni, and Cr by factors between 1.6 and 7.7 were achieved. Finally, we discuss the limitations of the method and provide complementary analysis of other materials in the supplementary documents provided with this contribution. KEYWORDSfiltering method, improvement of quantitative performance, isotope accuracy, laser ablation and ionisation time-of-flight mass spectrometry (LIMS-TOF), mass resolution

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Section: Introductionsupporting

confidence: 52%

A method for improvement of mass resolution and isotope accuracy for laser ablation time‐of‐flight mass spectrometers

Wiesendanger

Tulej

Grimaudo

et al. 2018

Journal of Chemometrics

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“…() and Anderson et al. () for Mars and the Moon respectively, has the potential to calibrate model ages for other solar system bodies.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, a significant advance in our understanding of the crater chronology could be made with lunar samples returned from several locations bridging this time period. Furthermore, development of in situ dating such as discussed by Farley et al (2014) and Anderson et al (2015) for Mars and the Moon respectively, has the potential to calibrate model ages for other solar system bodies.…”

Section: Discussionmentioning

confidence: 99%

Dating very young planetary surfaces from crater statistics: A review of issues and challenges

Williams

Bogert

Pathare

et al. 2017

Meteorit & Planetary Scien

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Abstract-Determining the ages of young planetary surfaces relies on using populations of small, often sub-km diameter impact craters due to the higher frequency at which they form. Smaller craters however can be less reliable for estimating ages as their sizefrequency distribution is more susceptible to alteration with debate as to whether they should be used at all. With the current plethora of meter-scale resolution images acquired of the lunar and Martian surfaces, small craters have been widely used to derive model ages to establish the temporal relation of recent geologic events. In this review paper, we discuss the many factors that make smaller craters particularly challenging to use and should be taken into consideration when crater counts are confined to small crater diameters. Establishing confidence in a model age ultimately requires an understanding of the geologic context of the surface being dated as reliability can vary considerably and limitations of the dating technique should be considered in applying ages to any geologic interpretation.

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“…Radiometric dating of returned samples is the most straightforward way to identify formation ages as well as overprinting episodes associated with major impacts, but recent advances have now also demonstrated in situ age dating [ Farley et al ., ]. Multiple instruments designed and optimized specifically for age dating have been developed for flight [ Farley et al ., ; Cohen et al ., ; Solé , ; Anderson et al ., , ; Cho et al ., ] opening up the possibility for missions to carry payload elements designed to both elucidate the Martian planetary chronology and give solar system‐wide context to Mars' geochemical change with stratigraphy as it is explored.…”

Section: Mars As a Linchpin For Terrestrial Evolution: Requirements Fmentioning

confidence: 99%

The sustainability of habitability on terrestrial planets: Insights, questions, and needed measurements from Mars for understanding the evolution of Earth‐like worlds

et al. 2016

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What allows a planet to be both within a potentially habitable zone and sustain habitability over long geologic time? With the advent of exoplanetary astronomy and the ongoing discovery of terrestrial‐type planets around other stars, our own solar system becomes a key testing ground for ideas about what factors control planetary evolution. Mars provides the solar system's longest record of the interplay of the physical and chemical processes relevant to habitability on an accessible rocky planet with an atmosphere and hydrosphere. Here we review current understanding and update the timeline of key processes in early Mars history. We then draw on knowledge of exoplanets and the other solar system terrestrial planets to identify six broad questions of high importance to the development and sustaining of habitability (unprioritized): (1) Is small planetary size fatal? (2) How do magnetic fields influence atmospheric evolution? (3) To what extent does starting composition dictate subsequent evolution, including redox processes and the availability of water and organics? (4) Does early impact bombardment have a net deleterious or beneficial influence? (5) How do planetary climates respond to stellar evolution, e.g., sustaining early liquid water in spite of a faint young Sun? (6) How important are the timescales of climate forcing and their dynamical drivers? Finally, we suggest crucial types of Mars measurements (unprioritized) to address these questions: (1) in situ petrology at multiple units/sites; (2) continued quantification of volatile reservoirs and new isotopic measurements of H, C, N, O, S, Cl, and noble gases in rocks that sample multiple stratigraphic sections; (3) radiometric age dating of units in stratigraphic sections and from key volcanic and impact units; (4) higher‐resolution measurements of heat flux, subsurface structure, and magnetic field anomalies coupled with absolute age dating. Understanding the evolution of early Mars will feed forward to understanding the factors driving the divergent evolutionary paths of the Earth, Venus, and thousands of small rocky extrasolar planets yet to be discovered.

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Rb‐Sr resonance ionization geochronology of the Duluth Gabbro: A proof of concept forin situdating on the Moon

Cited by 18 publications

References 50 publications

A method for improvement of mass resolution and isotope accuracy for laser ablation time‐of‐flight mass spectrometers

A method for improvement of mass resolution and isotope accuracy for laser ablation time‐of‐flight mass spectrometers

Dating very young planetary surfaces from crater statistics: A review of issues and challenges

The sustainability of habitability on terrestrial planets: Insights, questions, and needed measurements from Mars for understanding the evolution of Earth‐like worlds

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