Program with Links to Abstracts

Schindhelm R. N.* Yingst R. A. Osterman D.

A High Dynamic Range Camera for Lunar Polar Science and Exploration [#1024]
Revelio is a high sensitivity visible/near infrared camera that expands the range of imaging environments for landed or roving missions on the lunar surface.

Lee D.* Moon B. Jeong M. Shin J. Kim J. et al.

Preliminary Design of the GrainCams Payload: A Suite of Two Light Field Cameras for the Study of Dust Particles on the Lunar Surface [#1772]
This paper presents the preliminary design of the GrainCams payload, which comprises two light field cameras, for studying dust particles on the lunar surface.

Klima R. L.* Carroll K. A. Hackett J. P. Meyer H. M. Ames W. F. et al.

In Situ Measurements of a Lunar Swirl Using the Lunar Vertex Rover Multispectral Microscope [#2718]
Mysterious swirl / Multispectral microscope / Solve your riddle soon.

Lee L. M.* Edwards C. S. Haberle C. Shafer M. Trilling D. et al.

The VISible and Infrared ObservatioN System (VISIONS) Overview [#2232]
The VISible and Infrared ObservaitoN System is Northern Arizona University’s student-led, low-cost, dual-wavelength imager for planetary science applications.

Lucey P. G.* Akagi J. Lee A. Yamamoto K. Ferrari-Wong C. M. et al.

PORIS: An Astronaut-Borne Portable Infrared Imaging Spectrometer for Rapid Assessment and Downselect of Potential Rock and Soil Samples [#1595]
PORIS is a 360-g thermal infrared imaging spectrometer field tested in Iceland, Meteor Crater, and the Grand Canyon.

Pérez-López S. A.* Kremer C. H. Mustard J. F. Bramble M. S. Pieters C. M. et al.

Consequences of Signal to Noise Ratio and Spectral Sampling for the Determination of Olivine Composition in the Intermediate Infrared Region [#2388]
Degrade that spectra / Check olivine chemistry / When does noise matter?

Sim C. K.* Choi Y.-J. Lee D. Baek S.-M. Shin J. et al.

DALO: MSIT-Funded Science Payloads for Lunar Landers [#1494]
Korea’s science payloads for CLPS lunar landers: LUSEM, GrainCams, LVRAD, and LSMAG. LUSEM is a part of the IM-3 mission to Reiner Gamma swirl in 2024.

Karmakar P.* Garg D. Singh A. Saratha G. Paul D. et al.

Planning and Operations Using Orbiter High Resolution Camera Onboard Chandrayaan-2 [#1984]
Payload planning and operations of OHRC onboard Chandrayaan-2 considering all bus and payload constraints.

Cano S.* Sands C. Smith C. Huang A.

Active SpecTROmeter for Small Satellites (ASTROSS) [#2722]
The Active SpecTROmeter for Small Satellites features co-orbiting pairs of CubeSats as an active spectroscopy platform for use in future planetary missions.

Kim K. J.* Kim S. Y. Choi Y. Park J. H. Kim Y. K. et al.

GRB221009A and Other Gamma-Ray Monitoring Data in Deep Space by KPLO Gamma-Ray Spectrometer [#2321]
The KPLO Gamma-Ray Detector detected GRB221009A and measured gamma-ray backgound in deep space during the cruise period. These will be good reference data.

Ayllon Unzueta M. A. U.* Parsons A. P. Peplowski P. N. P. Persaud A. P. Wilson J. W.

Bulk Elemental Composition Measurements of Meteorites via Neutron-Induced Gamma Ray Spectroscopy [#2393]
We developed a nondestructive technique based on fast neutron-induced gamma ray spectroscopy that can precisely measure the elemental composition of meteorites.

Schröder S.* Böttger U. Buder M. Bunduki Y. Cho Y. et al.

RAX: The Raman Spectrometer on the MMX Rover for In-Situ Surface Analysis on Phobos [#2549]
RAX was successfully integrated into MMX rover in Oct 2022. Rover delivery to JAXA in summer 2023. MMX mission launch in 2024.

Kelly E. M.* Egan M. J. Colón A. Angel S. M. Sharma S. K.

Half-Inch Monolithic Spatial Heterodyne Raman Spectrometer — A Polarization Study and Potential Tool for Planetary Exploration [#3020]
This study encompassed the testing of the instrumental properties of a new 1/2-inch mSHRS to evaluate its suitability for planetary exploration.

Jakubek R. S.* Fries M. D.

Laser Photodegradation of Macromolecular Carbon in Meteorites and Coals During Raman Spectral Collection [#1852]
Raman laser irradiation of macromolecular carbon in meteorites and terrestrial samples causes photodegradation and carbon structural changes.

Seel F.* Schröder S. Chide B. Dietz E. Hübers H.-W.

The Influence of the Laser Irradiance on Laser-Induced Shock Waves on Mars [#1941]
We present measurements that give insight into the influence of the laser irradiance on SuperCam’s acoustic LIBS measurements on Mars.

Rapin W.* Maurice S. Ollila A. Wiens R. C. Dubois B. et al.

μLIBS: A Micro-Scale Elemenal Analyser for Lightweight In Situ Exploration [#1942]
We propose a new 1.5-kg instrument to perform elemental grid microanalyses at 20–50 cm standoff without the need of a turret or arm.

Cannon K. M.* Rampe E. Malaret E. King I. Chen J. et al.

Mineralogical, Elemental, and Tomographic Reconnaissance Investigation for CLPS (METRIC): A Proposed Mission to the Lunar South Pole-Aitken Basin [#2130]
METRIC is a lunar characterization suite consisting of an XRD/F, XCT, and infrared spectrometer. We describe a proposed mission to exhumed SPA ejecta deposits.

Hanna R. D.* Ketcham R. A. Maisano J. A. Colbert M. W. Edey D. R.

Planetary Science Enabling Facility: University of Texas High-Resolution X-Ray CT Facility (UTCT) [#1527]
We describe the instruments and services available at UTCT, a NASA Planetary Science Enabling Facility for 3D X-ray computed tomography.

Espley J. R.*

Magnetic Observations of the Martian Subsurface [#2787]
Magnetic observations at Mars can characterize its subsurface. One example is local scale mapping of lava tubes.

Waller C. D.* Vines S. K. Anderson B. J. Blewett D. T. Milanes A. O. et al.

Magnetic Gradiometry and Ongoing Modeling Efforts for the Lunar Vertex Mission [#1820]
Looking for sources / Hidden in noisy fields of / Splendid lunar swirls.

Lihn S. D.* Chi P. J.

Rover Concept for Exploring Lunar and Martian Crustal Magnetic Fields [#2300]
We design a low-cost rover with an array of magnetometers controlled by a single-board computer for surveying lunar and martian crustal magnetic fields.

Grimm R. E.* Delory G. T. Espley J. R. McLain J. Stillman D. E.

Magnetotelluric Sounding of Solid-Body Interiors: Progress and Prospects [#1379]
This transformative approach to in situ sounding is ultrawideband, largely insensitive to source-field properties, and can be done entirely at a single station.

Fraeman A. A.* Bender H. A. McKinley I. M. Gibson M. S. Smith C. D. et al.

An Ultra-Compact Imaging Spectrometer for the Lunar Surface: UCIS-Moon [#1497]
We are building an ultra-compact visible to shortwave infrared imaging spectrometer (0.6–3.6 µm) optimized for science on the lunar surface named UCIS-Moon.

Eshelman E.* Schattner L. Carlson T. Michels J. Willis M. et al.

Hyperspectral Organic Detection in the Near Subsurface with Ultraviolet Fluorescence Spectroscopy [#1766]
The PERISCOPE instrument, under development to TRL 5, is intended to enable in situ organic detection and classification in the near subsurface.

Winebrenner D. P.* Bay R. C. Bramall N. E.

Toward Vertical Profiling of Organics in Planetary Ices with Economical Use of Spacecraft Resources [#2865]
We propose rapid surveying of the vertical distribution of organics and mineral dust in planetary ices at high sensitivity and depth resolution.

Okada T.* Tanaka S. Sakatani N. Shimaki Y. Arai T. et al.

Thermal Infrared Multiband Imager TIRI for ESA Hera Mission to Didymos Binary Asteroid [#1604]
The thermal imager TIRI onboard Hera is to investigate thermophysical properties and composition of binary asteroid Didymos and the science case is discussed.

Patrick E. L.* George D. E. ENABLE Team 

Enabling Analytical Chemistry of the Lunar Surface-Bounded Exosphere (SBE): Recording Native and Artificial Gas Sources at the Lunar Surface [#2477]
Review of the Environmental Analysis of the Bounded Lunar Exosphere (ENABLE) project, its suitability for the lunar exospheric environment, and current status.