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Core dynamics experiments in the three meter geodynamo device

$498,204FY2011GEONSF

University Of Maryland, College Park, College Park MD

Investigators

Abstract

The Earth's magnetic field is dynamic and has been weakening for the last 160 years. The main field is generated in the Earth's core by the interaction of the rotating, turbulent liquid metal outer core and electrical currents induced by that motion. This project seeks to resolve how the rotation of the planet and turbulence affect the generation of magnetic fields in the Earth's core. At the heart of the project is the University of Maryland's three meter-diameter model of the Earth's core. That model uses 20 tons of rotating liquid metal and vessel to mimic the interaction of magnetic fields, turbulence and rotation in a scale model of the Earth's core. A magnetic sensor array is used to measure the dynamics of magnetic fields induced by the sodium flow. With this array the magnetic Gauss coefficients (spherical harmonic amplitudes) can be determined in order to understand the magnetic and hydrodynamic modes and their dynamics, study of the role of turbulent fluctuations in momentum transport and magnetic field generation, and resolve wave motions and their contribution to geophysical dynamical processes. These magnetic measurements are complimented by diagnostics rotating with the experiment, including torque sensors, ultrasound velocimetry, dynamic pressure probes, and dynamic wall velocity probes. This project includes the initial sodium operations for the three meter system, now that the device and preliminary water experiments are complete. The project science, including the initial operation of a world unique device, is undertaken by a team of young researchers at the University of Maryland. The mentoring and career development experiences of the young scientists involved are an extremely important part of the project. Additionally, high-school science class field trips will be hosted to encourage the next generation of Science, Technology, Engineering, and Mathematics students from diverse backgrounds, while exposing them to an international science project. Finally, the measurements from the magnetic probe array allow the rendering of the magnetic fields into movies in order to convey our observations to the public.

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