Optimization of a laser remote sensing magnetometer

The project would conduct optimization experiments on the bench-top magnetometer, build and integrate the results of the now completed Office of Naval Research (ONR) study with our work, and further explore mission concepts and link budgets.There are several tasks involved in this project: optimization of excitation wavelength distribution, the laser spectral energy distribution, the laser polarization, and the optimum optical receiver configuration, in order to recover scalar and some vector magnetic fields of importance to both planetary and terrestrial solid body, and magnetospheric/heliospheric science.

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Field	Value
accessLevel	public
bureauCode	{026:00}
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identifier	TECHPORT_40641
issued	2017-09-01
landingPage	https://techport.nasa.gov/view/40641
modified	2020-01-29
programCode	{026:027}
publisher	Space Technology Mission Directorate
resource-type	Dataset
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metadata_created	2025-11-19T16:02:07.631149
metadata_modified	2025-11-19T16:02:07.631155
notes	<p>The project would conduct optimization experiments on the bench-top magnetometer, build and integrate the results of the now completed Office of Naval Research (ONR) study with our work, and further explore mission concepts and link budgets.</p><p>There are several tasks involved in this project:  optimization of excitation wavelength distribution, the laser spectral energy distribution, the laser polarization, and the optimum optical receiver configuration, in order to recover scalar and some vector magnetic fields of importance to both planetary and terrestrial solid body, and magnetospheric/heliospheric science.</p>
num_resources	4
num_tags	10
title	Optimization of a laser remote sensing magnetometer