Matthew R. Perry

Mars Reconnaissance Orbiter (MRO) Shallow Radar (SHARAD) Sounder

Co-Investigator and U.S. Operations Specialist       

Provided by the Agenzia Spaziale Italiana (ASI), SHARAD is a subsurface radar sounder aboard NASA's Mars Reconnaissance Orbiter (MRO). Operating with a 10 MHz bandwidth and a 20 MHz center frequency, SHARAD transmits radar pulses toward the Martian surface and records echoes from the surface and buried interfaces, enabling scientists to image subsurface layering to depths of hundreds of meters to more than a kilometer, depending on material properties.

SHARAD has been in continuous science operations since November 2006, making it one of the longest-running orbital radar sounders in planetary exploration. Its primary mission is to characterize the structure, composition, and distribution of subsurface materials on Mars, with a strong emphasis on detecting and mapping water ice. SHARAD data have been central to studies of the polar layered deposits, mid-latitude buried ice, volcanic and sedimentary stratigraphy, and the geologic history preserved in the Martian subsurface.

For a recent review of MRO SHARAD, please see Putzig et al. (2024)

System Manager for the Colorado SHARAD Processing System (CO-SHARPS)       

The U.S. SHARAD team developed the Colorado SHARAD Radar Processing System (CO-SHARPS), which supplements the Italian-produced standard SHARAD products archived in the NASA Planetary Data System. A primary feature of CO-SHARPS is the processing boutique, which allows the use of custom processing parameters to produce radargrams that may better resolve features specific to individual locations on Mars.

CO-SHARPS was established in 2006 — as WU-SHARPS at Washington University in St. Louis — by former SHARAD U.S./Deputy Team Leader Roger Phillips. Since 2016, PSI has hosted CO-SHARPS on behalf of the U.S. team.

Access to CO-SHARPS is open to all interested parties. Please visit the U.S. SHARAD Team website for more information.

High-resolution 3D radar mapping, analysis, and modeling of the internal layers within the north polar layered deposits

Principal Investigator

National Aeronautics and Space Administration (NASA)
Mars Data Analysis Program (MDAP)
Grant Number:  80NSSC23K1076

This project is carrying out high-resolution radar mapping and stratigraphic analyses of Mars' North Polar Layered Deposits (NPLD) using the recently completed, publicly available second iteration of the Planum Boreum (PB) three-dimensional (3D) radargram. These efforts are complemented by physics-based numerical modeling of stratigraphic development across a large number of locations within PB to determine the spatiotemporal variations of accumulation in the polar region.

MARSTHERM 2.0: Enhanced Thermophysical Analysis Tools for Mars Research

Principal Investigator

National Aeronautics and Space Administration (NASA)
Planetary Data, Archival, Restoration, and Tools (PDART)
Grant Number: 80NSSC22K1834

This project is enhancing MARSTHERM, a free and publicly accessible interface to numerical thermal modeling and thermal inertia (TI) derivation codes, by: 1) augmenting its computer hardware, 2) installing and enhancing its previously developed multilayer numerical thermal modeling code, 3) introducing new two-layer TI derivation code, and 4) upgrading its web interface.

The project will also provide additional upgrades to MARSTHERM, including: 1) functions for mosaicking spectrometer-derived TI images within regions of interest, 2) porting of the website driver software from Python 2 to Python 3+, and 3) general enhancements to the user interface. Additionally, the project includes benchmarking analyses comparing the two most widely used Mars numerical thermal models — MARSTHERM and KRC Mars — with results to be placed in a publicly accessible database. A user interface will also be added within MARSTHERM enabling end users to conduct their own benchmarking analyses.

3D Subsurface Imaging and Analysis of Glaciers and Lava Fields with SHARAD Data

Co-Investigator

National Aeronautics and Space Administration (NASA)
Mars Data Analysis Program (MDAP)
Grant Number: 80NSSC22K1087

This project aims to characterize the internal structure and stratigraphy of Martian glaciers and lava fields by generating and analyzing 3D radargrams from Mars Reconnaissance Orbiter (MRO) Shallow Radar (SHARAD) data. Building on previously developed methodologies for 3D SHARAD radargrams of Planum Boreum and Planum Australe, this study will produce four new 3D datasets for mid-latitude regions: Deuteronilus Mensae, Phlegra Montes, eastern Hellas, and Elysium Planitia.

By analyzing these non-polar 3D radargrams, the project will address key questions: (1) Were there multiple phases of Martian glaciation? (2) Do all Martian glacial features share the same origin? (3) How did the magnitude and style of volcanic eruptions vary in recent Martian history? To enhance contextual interpretation and improve confidence in subsurface stratigraphy, site-specific digital elevation models (DEMs) will be generated from MRO CTX and HiRISE images, aiding in the assessment of where subsurface layering intersects the surface.

Planetary Orbital Radar Sounder Processing and Simulation System (PORPASS)

Co-Investigator, Project Manager, and Lead Developer

National Aeronautics and Space Administration (NASA)
Planetary Data, Archival, Restoration, and Tools (PDART)
Grant Number: 80NSSC20K1057

This project is developing a web-based Planetary Orbital Radar Processing and Simulation System (PORPASS), built around a new generalized radar sounder processor (GRaSP) and a new 3D orbital radar simulator (OaRS). The bulk of the web application will be presented as a web-based GIS interface, allowing users to intuitively select specific observations over targets of interest for further processing and simulation. PORPASS will access orbital radar data from the Planetary Data System (PDS) or equivalent archive and use GRaSP to carry out customized processing for a chosen instrument and parameter set. OaRS will generate simulated radar data using spacecraft orbital parameters, instrument configurations, space and planetary environments, surface topography, and subsurface attenuation and scattering effects.

Work under this grant will implement this functionality for the Mars Reconnaissance Orbiter Shallow Radar Sounder (SHARAD), the Mars Express Mars Advanced Radar for Subsurface and Ionosphere Sounding (MARSIS), and the Kaguya Lunar Radar Sounder (LRS).

Pingo SubTerranean Aquifer Reconnaissance and Reconstruction (Pingo STARR)

Research/Coding Assistant

National Aeronautics and Space Administration (NASA)
Planetary Science and Technology through Analog Research (PSTAR)
Grant Number: 80NSSC22K1431

Pingo STARR will advance human- and lander-scale geophysical techniques tailored to detect, characterize, and investigate the hydrology and genesis of possible pingo-like features (PLFs) on Earth, Mars, and Ceres. This systems-level geophysical field campaign will be the most comprehensive pingo investigation to date and the first dedicated analysis of pingos from a planetary science perspective. The science and technology objectives of this project will provide valuable insight into characterizing ground-ice and ground-water systems on Mars and Ceres.

3D Subsurface Imaging and Analysis of the Martian Polar Regions with MARSIS Data

Co-Investigator

National Aeronautics and Space Administration (NASA)
Mars Data Analysis Program (MDAP)
Grant Number: 80NSSC19K1228

High Resolution 3D Imaging of SHARAD Data

Co-Investigator

National Aeronautics and Space Administration (NASA)
Planetary, Data, Archival, Restoration, and Tools (PDART)
Grant Number: 80NSSC19K0414

The Modification of Circumpolar Craters in the Martian Cryosphere

Research Assistant

National Aeronautics and Space Administration (NASA)
Mars Data Analysis Program (MDAP)
Grant Number: 80NSSC21K1102

Deciphering the Martian Surface and Near-surface with Radar Statistics

Co-Investigator

National Aeronautics and Space Administration (NASA)
Mars Data Analysis Program (MDAP)
Grant Number: 80NSSC19K1492

SWIM 4 MIM: Advance prospecting for the Mars Ice Mapper Mission

Co-Investigator

National Aeronautics and Space Administration (NASA)
Mars Exploration Program (MEP)
JPL Subcontract

Subsurface Water Ice Mapping (SWIM) on Mars

Co-Investigator

National Aeronautics and Space Administration (NASA)
Mars Exploration Program (MEP)
JPL Subcontract

Advanced 3-D Subsurface Imaging and Analysis of Planum Boreum with SHARAD Data

Research Assistant

National Aeronautics and Space Administration (NASA)
Mars Data Analysis Program (MDAP)
Grant Number: NNX16AN90G

Autonomous Roving Exploration System

Research Assistant

National Aeronautics and Space Administration (NASA)
Early Career Fellowship
Grant Number: 80NSSC19K0807