Meenakshi Wadhwa

What is she best known for?

The fields of study she is best known for:

• Geochemistry
• Basalt
• Isotope

Geochemistry, Meteorite, Mineralogy, Basalt and Chondrite are her primary areas of study. Her study looks at the intersection of Geochemistry and topics like Silicate with Astrobiology. Her work investigates the relationship between Meteorite and topics such as Mantle that intersect with problems in Nakhlite.

While the research belongs to areas of Mineralogy, Meenakshi Wadhwa spends her time largely on the problem of Sedimentary rock, intersecting her research to questions surrounding Pyrolysis and Total organic carbon. Her Chondrite research integrates issues from Standard solution and Isotopes of magnesium. Her research integrates issues of Winonaite, Mineral and Isotope in her study of Pyroxene.

Her most cited work include:

• Magnesium isotope heterogeneity of the isotopic standard SRM980 and new reference materials for magnesium-isotope-ratio measurements (301 citations)
• Investigation of magnesium isotope fractionation during basalt differentiation: Implications for a chondritic composition of the terrestrial mantle (259 citations)
• Volatile and organic compositions of sedimentary rocks in Yellowknife Bay, Gale crater, Mars. (250 citations)

What are the main themes of her work throughout her whole career to date?

Meenakshi Wadhwa focuses on Geochemistry, Meteorite, Astrobiology, Solar System and Isotope. Her Achondrite research extends to the thematically linked field of Geochemistry. Her Meteorite research integrates issues from Martian, Mineralogy and Weathering.

Meenakshi Wadhwa has included themes like Fractional crystallization and Igneous rock in her Mineralogy study. Her work carried out in the field of Solar System brings together such families of science as Accretion, Supernova, Planet and Chronology. She works mostly in the field of Isotope, limiting it down to topics relating to Analytical chemistry and, in certain cases, Magnesium, as a part of the same area of interest.

She most often published in these fields:

• Geochemistry (38.26%)
• Meteorite (36.24%)
• Astrobiology (29.53%)

What were the highlights of her more recent work (between 2017-2021)?

• Astrobiology (29.53%)
• Geochemistry (38.26%)
• Solar System (16.11%)

In recent papers she was focusing on the following fields of study:

Her scientific interests lie mostly in Astrobiology, Geochemistry, Solar System, Martian and Isotope. Particularly relevant to Meteorite is her body of work in Astrobiology. Her work in the fields of Geochemistry, such as Chronometry, overlaps with other areas such as Lunar meteorite.

Her research in Martian intersects with topics in Containment, Mantle and Crust. Her Isotope research includes themes of Chondrite, Allende meteorite, Formation and evolution of the Solar System and Metal. In her study, Pyroxene and Olivine is strongly linked to Analytical chemistry, which falls under the umbrella field of Isotopes of magnesium.

Between 2017 and 2021, her most popular works were:

• Silica-rich volcanism in the early solar system dated at 4.565 Ga (15 citations)
• Terrestrial exposure of a fresh Martian meteorite causes rapid changes in hydrogen isotopes and water concentrations (12 citations)
• Magnesium isotope analysis of olivine and pyroxene by SIMS: Evaluation of matrix effects (9 citations)

In her most recent research, the most cited papers focused on:

• Isotope
• Basalt
• Solar System

Meenakshi Wadhwa mainly investigates Isotope, Meteorite, Geochemistry, Solar System and Isotopes of magnesium. Her Isotope study integrates concerns from other disciplines, such as Secondary ion mass spectrometry and Analytical chemistry. Meenakshi Wadhwa has researched Meteorite in several fields, including Andesite, Basalt and Phenocryst.

Her work in the fields of Geochemistry, such as Breccia, overlaps with other areas such as Porphyritic. Her Solar System study combines topics from a wide range of disciplines, such as Planetary science, Mineralogy, Allende meteorite and Earth. The concepts of her Isotopes of magnesium study are interwoven with issues in Inductively coupled plasma mass spectrometry, Pyroxene, Olivine, Enstatite and Forsterite.

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