James Wookey

What is he best known for?

The fields of study he is best known for:

• Geophysics
• Plate tectonics
• Programming language

Anisotropy, Seismic anisotropy, Mantle, Core–mantle boundary and Shear wave splitting are his primary areas of study. His study looks at the relationship between Anisotropy and fields such as Mineralogy, as well as how they intersect with chemical problems. Seismic anisotropy is the subject of his research, which falls under Geophysics.

His work carried out in the field of Geophysics brings together such families of science as Martian and Surface wave, Rayleigh wave. His Mantle study integrates concerns from other disciplines, such as Subduction and Hotspot. James Wookey has included themes like Condensed matter physics, Mantle convection and Mantle wedge in his Core–mantle boundary study.

His most cited work include:

• Efficacy of the post-perovskite phase as an explanation for lowermost-mantle seismic properties (170 citations)
• Efficacy of the post-perovskite phase as an explanation for lowermost-mantle seismic properties (170 citations)
• First-principles constraints on diffusion in lower-mantle minerals and a weak D'' layer (164 citations)

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

James Wookey mainly focuses on Geophysics, Seismic anisotropy, Mantle, Anisotropy and Seismology. James Wookey focuses mostly in the field of Geophysics, narrowing it down to matters related to Mantle convection and, in some cases, Hotspot. His research investigates the connection between Seismic anisotropy and topics such as Shear wave splitting that intersect with issues in Seismic tomography.

His research investigates the connection between Mantle and topics such as Petrology that intersect with problems in Discontinuity and Rift. The various areas that James Wookey examines in his Anisotropy study include Shear, Condensed matter physics, Mineralogy, Isotropy and Microseism. He interconnects Slab and Mars Exploration Program in the investigation of issues within Seismology.

He most often published in these fields:

• Geophysics (39.88%)
• Seismic anisotropy (38.10%)
• Mantle (36.31%)

What were the highlights of his more recent work (between 2016-2021)?

• Seismology (27.98%)
• Seismic anisotropy (38.10%)
• Mars Exploration Program (9.52%)

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

His primary areas of study are Seismology, Seismic anisotropy, Mars Exploration Program, Anisotropy and Seismometer. His studies in Seismology integrate themes in fields like Amplitude and Attenuation. The Seismic anisotropy portion of his research involves studies in Mantle and Geophysics.

In general Mars Exploration Program study, his work on Martian often relates to the realm of Ground segment, thereby connecting several areas of interest. His Anisotropy research includes themes of Microseism, Optical fiber and Body waves. His Shear wave splitting study combines topics in areas such as Post-perovskite and Arc.

Between 2016 and 2021, his most popular works were:

• SEIS: Insight’s Seismic Experiment for Internal Structure of Mars (81 citations)
• Planned Products of the Mars Structure Service for the InSight Mission to Mars (61 citations)
• Seismicity associated with magmatism, faulting and hydrothermal circulation at Aluto Volcano, Main Ethiopian Rift (35 citations)

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

• Plate tectonics
• Programming language
• Geophysics

His primary scientific interests are in Mars Exploration Program, Seismology, Seismometer, Planetary science and Martian. His Mars Exploration Program research is multidisciplinary, incorporating elements of Rayleigh wave, Data processing, Remote sensing and Geodesy. As part of his studies on Seismology, James Wookey frequently links adjacent subjects like Attenuation.

His biological study spans a wide range of topics, including Bandwidth, Regolith and Moment magnitude scale. His research integrates issues of Physical model, Atmosphere of Mars, Impact crater and Acoustic wave in his study of Planetary science. His Martian research incorporates themes from Planetary Data System and Surface wave.

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