Space instrumentation

Habitability of Small Bodies — State of Knowledge and Motivations for Exploration in the Next Decade

Bulletin of the AAS American Astronomical Society 53:4 (2021)

Authors:

Julie Castillo-Rogez, Jason D Hofgartner, Kelsi Singer, Charles Cockell, Bryan J Holler, Marc Neveu, Maitrayee Bose, Tim Swindle, Carly Howett, Joseph Lazio, John Elliott, Jennifer Scully, Andreas Nathues

Ocean Worlds: A Roadmap for Science and Exploration

Bulletin of the AAS American Astronomical Society 53:4 (2021)

Authors:

Amanda Hendrix, Terry A Hurford, Laura M Barge, Michael T Bland, Jeff S Bowman, William Brinckerhoff, Bonnie Buratti, Morgan Cable, Julie Castillo-Rogez, Geoffrey Collins, John F Cooper, Serina Diniega, Chris German, Alexander Hayes, Tori Hoehler, Sona Hosseini, Carly Howett, Alfred McEwen, Catherine Neish, Marc Neveu, Tom Nordheim, Wes Patterson, Alex Patthoff, Cynthia Phillips, Alyssa Rhoden, Britney Schmidt, Kelsi Singer, Jason M Soderblom, Steve Vance, Rosaly MC Lopes, Nathalie A Cabrol, Christian Lindensmith, Joseph Westlake, Jennifer Scully, Paul K Byrne, Pamela Such, Shannon MacKenzie

Ocean Worlds: Science Goals for the Next Decade

Bulletin of the AAS American Astronomical Society 53:4 (2021)

Authors:

Amanda Hendrix, Terry Hurford, Laura M Barge, Michael T Bland, Jeff S Bowman, William Brinckerhoff, Bonnie Buratti, Morgan Cable, Julie Castillo-Rogez, Geoffrey Collins, John F Cooper, Serina Diniega, Chris German, Alexander Hayes, Tori Hoehler, Sona Hosseini, Carly Howett, Alfred McEwen, Catherine Neish, Marc Neveu, Tom Nordheim, Wes Patterson, Alex Patthoff, Cynthia Phillips, Alyssa Rhoden, Britney Schmidt, Kelsi Singer, Jason M Soderblom, Steve Vance, Rosaly MC Lopes, Nathalie A Cabrol, Christian Lindensmith, Joseph Westlake, Jennifer Scully, Paul K Byrne

Updates to the Oxford Space Environment Goniometer to measure visible wavelength bidirectional reflectance distribution functions in ambient conditions

Review of Scientific Instruments AIP Publishing 92:3 (2021) 034504

Authors:

Rowan Curtis, Tristram Warren, Neil Bowles

Abstract:

Understanding how the surfaces of airless planetary bodies—such as the Moon—scatter visible light enables constraints to be placed on their surface properties and top boundary layer inputs to be set within thermal models. Remote sensing instruments—such as Diviner onboard the Lunar Reconnaissance Orbiter—measure thermal emission and visible light scattering functions across visible (∼0.38–0.7 µm) to thermal infrared (TIR) wavelengths (∼0.7–350 μm). To provide ground support measurements for such instruments, the Oxford Space Environment Goniometer (OSEG) was built. Initially, the OSEG focused on measuring TIR directional emissivity functions for regolith and regolith simulant samples in a simulated space environment, but it has recently been modified to measure visible wavelength Bidirectional Reflectance Distribution Functions (BRDFs) of samples in ambient conditions. Laboratory-measured BRDFs can be used (1) to test and to help interpret models—such as the Hapke photometric model—and (2) as visible scattering function inputs for thermal models. This paper describes the modifications to and initial calibration measurements taken by the Visible Oxford Space Environment Goniometer with a 532 nm laser, and details how this setup can be used to measure BRDFs of regolith and regolith simulant samples of airless planetary bodies.

Hemispheric tectonics on super-Earth LHS 3844b

Astrophysical Journal Letters IOP Publishing 908:2 (2021) L48

Authors:

Tobias G Meier, Dan J Bower, Tim Lichtenberg, Paul J Tackley, Brice-Olivier Demory

Abstract:

The tectonic regime of rocky planets fundamentally influences their long-term evolution and cycling of volatiles between interior and atmosphere. Earth is the only known planet with active plate tectonics, but observations of exoplanets may deliver insights into the diversity of tectonic regimes beyond the solar system. Observations of the thermal phase curve of super-Earth LHS 3844b reveal a solid surface and lack of a substantial atmosphere, with a temperature contrast between the substellar and antistellar point of around 1000 K. Here, we use these constraints on the planet's surface to constrain the interior dynamics and tectonic regimes of LHS 3844b using numerical models of interior flow. We investigate the style of interior convection by assessing how upwellings and downwellings are organized and how tectonic regimes manifest. We discover three viable convective regimes with a mobile surface: (1) spatially uniform distribution of upwellings and downwellings, (2) prominent downwelling on the dayside and upwellings on the nightside, and (3) prominent downwelling on the nightside and upwellings on the dayside. Hemispheric tectonics is observed for regimes (2) and (3) as a direct consequence of the day-to-night temperature contrast. Such a tectonic mode is absent in the present-day solar system and has never been inferred from astrophysical observations of exoplanets. Our models offer distinct predictions for volcanism and outgassing linked to the tectonic regime, which may explain secondary features in phase curves and allow future observations to constrain the diversity of super-Earth interiors.