Litcius/Paper detail

Inferring the Shallow Layered Structure at the Chang’E‐4 Landing Site: A Novel Interpretation Approach Using Lunar Penetrating Radar

Iraklis Giannakis, Feng Zhou, Craig Warren, Antonios Giannopoulos

2021Geophysical Research Letters26 citationsDOIOpen Access PDF

Abstract

Abstract The current paper investigates the shallow layers of the lunar regolith at the Chang’E‐4 landing site. Four layers between 0 and 10 m were identified using lunar penetrating radar. Based on these outputs, a revised stratigraphic model is suggested for the post‐Imbrian ejecta at the Von Kármán crater. The layers were previously unseen due to the smooth boundaries between them. The revised model was inferred using an advanced hyperbola‐fitting scheme. Applying conventional hyperbola‐fitting to non‐homogeneous media results in errors and inaccuracies that are often wrongly assumed to be negligible. We propose a novel hyperbola‐fitting scheme that is, not constrained to homogeneous media and can be applied subject to any arbitrary one‐dimensional permittivity distribution. Via this approach, we can estimate the permittivity profile of an investigated area and detect layered structures that were previously transparent to electromagnetic waves due to the gradational dielectric properties at their interfaces.

Topics & Concepts

HyperbolaGeologyImpact craterRegolithRadarEjectaGround-penetrating radarHomogeneousPermittivityInterpretation (philosophy)GeophysicsDielectricGeometryPhysicsComputer scienceMathematicsStatistical physicsAstrobiologyQuantum mechanicsProgramming languageTelecommunicationsOptoelectronicsSupernovaPlanetary Science and ExplorationGeophysical Methods and ApplicationsGeophysical and Geoelectrical Methods
Inferring the Shallow Layered Structure at the Chang’E‐4 Landing Site: A Novel Interpretation Approach Using Lunar Penetrating Radar | Litcius