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1. Revealing the interior structure of icy moons with a Bayesian approach to magnetic induction measurements

Author

Biersteker, John B., Weiss, Benjamin P., Cochrane, Corey J., Harris, Camilla D. K., Jia, Xianzhe, Khurana, Krishan K., Liu, Jiang, Murphy, Neil, and Raymond, Carol A.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Physics - Space Physics
Abstract

Some icy moons and small bodies in the solar system are believed to host subsurface liquid water oceans. The interaction of these saline, electrically conductive oceans with time-varying external magnetic fields generates induced magnetic fields. Magnetometry observations of these induced fields in turn enable the detection and characterization of these oceans. We present a framework for characterizing the interiors of icy moons using multi-frequency induction and Bayesian inference applied to magnetometry measurements anticipated from the upcoming Europa Clipper mission. Using simulated data from the Europa Clipper Magnetometer (ECM), our approach can accurately retrieve a wide range of plausible internal structures for Europa. In particular, the ocean conductivity is recovered to within ${\pm}50\%$ for all internal structure scenarios considered and the ocean thickness can be retrieved to within ${\pm}25~\mathrm{km}$ for five out of seven scenarios. Characterization of the ice shell thickness to ${\pm}50\%$ is possible for six of seven scenarios. Our recovery of the ice shell thickness is highly contingent on accurate modeling of magnetic fields arising from the interaction of Europa with the ambient magnetospheric plasma, while the ocean thickness is more modestly affected and the ocean conductivity retrieval is largely unchanged. Furthermore, we find that the addition of a priori constraints (e.g., static gravity measurements) can yield improved ocean characterization compared to magnetometry alone, suggesting that multi-instrument techniques can play a key role in revealing the interiors of Europa and other ocean worlds., Comment: 18 pages, 16 figures, submitted to Planetary Science Journal

Published
2022

2. The Renaissance of Main Belt Asteroid Science

Author

Marchi, Simone, Raymond, Carol A., and Russell, Christopher T.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

The NASA Dawn spacecraft took off from Cape Canaveral in September 2007 atop a Delta II rocket starting an ambitious journey to Vesta and Ceres, the two most massive worlds in the largest reservoir of asteroids in the Solar System, the Main Belt. Prior to the Dawn launch, Earth-bound observations of Vesta and Ceres revealed intriguing features--from Vesta's rugged shape to Ceres' tenuous water exosphere--, but these objects remained fuzzy speckles of light even through the lenses of the most powerful telescopes. With Dawn's exploration of Vesta (2011-2012) and Ceres (2015-2018) these two worlds came into focus. Breath-taking details emerged of how large collisions sculpted Vesta liberating massive amounts of material in the inner Main Belt, providing the source of an important family of meteorites recovered on Earth. Ceres' complex geology, which may rival that of the Earth and Mars, unveiled recent cryovolcanic activity. This book is dedicated to these highlights, and many more discoveries of the Dawn mission. By the time Dawn completed its mission in 2018, our understanding of the formation of the Solar System had greatly evolved thanks to new theoretical models and to a new trove of meteorite geochemical data, and Dawn observations of Vesta and Ceres provide new, vital constraints to synergistically interpret models and data. The broader implications of the Dawn legacy are presented in a series of dedicated chapters. The editors hope this book will serve as a solid reference for the younger generations as well as for more seasoned researchers to successfully pursue future exploration of the Main Belt. We certainly have learned a lot thanks to Dawn, and yet we know that we have barely scratched the surface of what Main Belt asteroids can tell us about the dawn of our Solar System., Comment: This is the Epilogue of the book

Published
2022
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3. Science Overview of the Europa Clipper Mission

Author

Pappalardo, Robert T., Buratti, Bonnie J., Korth, Haje, Senske, David A., Blaney, Diana L., Blankenship, Donald D., Burch, James L., Christensen, Philip R., Kempf, Sascha, Kivelson, Margaret G., Mazarico, Erwan, Retherford, Kurt D., Turtle, Elizabeth P., Westlake, Joseph H., Paczkowski, Brian G., Ray, Trina L., Kampmeier, Jennifer, Craft, Kate L., Howell, Samuel M., Klima, Rachel L., Leonard, Erin J., Matiella Novak, Alexandra, Phillips, Cynthia B., Daubar, Ingrid J., Blacksberg, Jordana, Brooks, Shawn M., Choukroun, Mathieu N., Cochrane, Corey J., Diniega, Serina, Elder, Catherine M., Ernst, Carolyn M., Gudipati, Murthy S., Luspay-Kuti, Adrienn, Piqueux, Sylvain, Rymer, Abigail M., Roberts, James H., Steinbrügge, Gregor, Cable, Morgan L., Scully, Jennifer E. C., Castillo-Rogez, Julie C., Hay, Hamish C. F. C., Persaud, Divya M., Glein, Christopher R., McKinnon, William B., Moore, Jeffrey M., Raymond, Carol A., Schroeder, Dustin M., Vance, Steven D., Wyrick, Danielle Y., Zolotov, Mikhail Y., Hand, Kevin P., Nimmo, Francis, McGrath, Melissa A., Spencer, John R., Lunine, Jonathan I., Paty, Carol S., Soderblom, Jason M., Collins, Geoffrey C., Schmidt, Britney E., Rathbun, Julie A., Shock, Everett L., Becker, Tracy C., Hayes, Alexander G., Prockter, Louise M., Weiss, Benjamin P., Hibbitts, Charles A., Moussessian, Alina, Brockwell, Timothy G., Hsu, Hsiang-Wen, Jia, Xianzhe, Gladstone, G. Randall, McEwen, Alfred S., Patterson, G. Wesley, McNutt, Jr., Ralph L., Evans, Jordan P., Larson, Timothy W., Cangahuala, L. Alberto, Havens, Glen G., Buffington, Brent B., Bradley, Ben, Campagnola, Stefano, Hardman, Sean H., Srinivasan, Jeffrey M., Short, Kendra L., Jedrey, Thomas C., St. Vaughn, Joshua A., Clark, Kevin P., Vertesi, Janet, and Niebur, Curt

Published
2024
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4. The brittle boulders of dwarf planet Ceres

Author

Schröder, Stefan, Carsenty, Uri, Hauber, Ernst, Raymond, Carol, and Russell, Christopher

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We mapped all boulders larger than 105 m on the surface of dwarf planet Ceres using images of the Dawn framing camera acquired in the Low Altitude Mapping Orbit (LAMO). We find that boulders on Ceres are more numerous towards high latitudes and have a maximum lifetime of $150 \pm 50$ Ma, based on crater counts. These characteristics are distinctly different from those of boulders on asteroid (4) Vesta, an earlier target of Dawn, which implies that Ceres boulders are mechanically weaker. Clues to their properties can be found in the composition of Ceres' complex crust, which is rich in phyllosilicates and salts. As water ice is though to be present only meters below the surface, we suggest that boulders also harbor ice. Furthermore, the boulder size-frequency distribution is best fit by a Weibull distribution rather than the customary power law, just like for Vesta boulders. This finding is robust in light of possible types of size measurement error., Comment: Accepted by the Planetary Science Journal, 31 pages, 14 figures

Published
2021

5. Feasibility of characterizing subsurface brines on Ceres by electromagnetic sounding

Author

Grimm, Robert, Castillo-Rogez, Julie, Raymond, Carol, and Poppe, Andrew R.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The ice-rich dwarf planet Ceres is the largest object in the main asteroid belt and is thought to have a brine or mud layer at a depth of tens of kilometers. Furthermore, recent surface deposits of brine-sourced material imply shallow feeder structures such as sills or dikes. Inductive sounding of Ceres can be performed using the solar wind as a source, as was done for the Moon during Apollo. However, the magnetotelluric method -- measuring both electric and magnetic fields at the surface -- is not sensitive to plasma effects that were experienced for Apollo, which used an orbit-to-surface magnetic transfer function. The highly conductive brine targets are readily separable from the resistive ice and rock interior, such that the depth to deep and shallow brines can be assessed simultaneously. The instrumentation will be tested on the Moon in 2023 and is ready for implementation on a Ceres landed mission.

Published
2021
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6. The Case for Non-Cryogenic Comet Nucleus Sample Return

Author

Nakamura-Messenger, Keiko, Hayes, Alexander G., Sandford, Scott, Raymond, Carol, Squyres, Steven W., Nittler, Larry R., Birch, Samuel, Bodewits, Denis, Chabot, Nancy, Wadhwa, Meenakshi, Choukroun, Mathieu, Clemett, Simon J., Bose, Maitrayee, Russo, Neil Dello, Dworkin, Jason P., Elsila, Jamie E., Fisher, Kenton, Gerakines, Perry, Glavin, Daniel P., Mitchell, Julie, Mumma, Michael, Nguyen, Ann. N., Pace, Lisa, Soderblom, Jason, and Sunshine, Jessica M.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics
Abstract

Comets hold answers to mysteries of the Solar System by recording presolar history, the initial states of planet formation and prebiotic organics and volatiles to the early Earth. Analysis of returned samples from a comet nucleus will provide unparalleled knowledge about the Solar System starting materials and how they came together to form planets and give rise to life: 1. How did comets form? 2. Is comet material primordial, or has it undergone a complex alteration history? 3. Does aqueous alteration occur in comets? 4. What is the composition of cometary organics? 5. Did comets supply a substantial fraction of Earth's volatiles? 6. Did cometary organics contribute to the homochirality in life on Earth? 7. How do complex organic molecules form and evolve in interstellar, nebular, and planetary environments? 8. What can comets tell us about the mixing of materials in the protosolar nebula?, Comment: White Paper submitted to the Planetary Science Decadal Survey 2023-2032 reflecting the viewpoints of three New Frontiers comet sample return missions proposal teams, CAESAR, CONDOR, and CORSAIR

Published
2020

7. The boulder population of asteroid 4 Vesta: Size-frequency distribution and survival time

Author

Schröder, Stefan E., Carsenty, Uri, Hauber, Ernst, Schulzeck, Franziska, Raymond, Carol A., and Russell, Christopher T.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Dawn's framing camera observed boulders on the surface of Vesta when the spacecraft was in its lowest orbit (LAMO). We identified, measured, and mapped boulders in LAMO images, which have a scale of 20 m per pixel. We estimate that our sample is virtually complete down to a boulder size of 4 pixels (80 m). The largest boulder is a 400 m-sized block on the Marcia crater floor. Relatively few boulders reside in a large area of relatively low albedo, surmised to be the carbon-rich ejecta of the Veneneia basin, either because boulders form less easily here or live shorter. By comparing the density of boulders around craters with a known age, we find that the maximum boulder lifetime is about 300 Ma. The boulder size-frequency distribution (SFD) is generally assumed to follow a power law. We fit power laws to the Vesta SFD by means of the maximum likelihood method, but they do not fit well. Our analysis of power law exponents for boulders on other small Solar System bodies suggests that the derived exponent is primarily a function of boulder size range. The Weibull distribution mimics this behavior and fits the Vesta boulder SFD well. The Weibull distribution is often encountered in rock grinding experiments, and may result from the fractal nature of cracks propagating in the rock interior. We propose that, in general, the SFD of particles (including boulders) on the surface of small bodies follows a Weibull distribution rather than a power law.

Published
2020
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8. A Long‐Lived Planetesimal Dynamo Powered by Core Crystallization

Author

Maurel, Clara, Bryson, James FJ, Shah, Jay, Chopdekar, Rajesh V, Elkins‐Tanton, Linda T, Raymond, Carol A, and Weiss, Benjamin P

Subjects
core crystallization, dynamo, iron meteorites, magnetic field, planetesimal, Meteorology & Atmospheric Sciences
Abstract

The existence of numerous iron meteorite groups indicates that some planetesimals underwent melting that led to metal-silicate segregation, sometimes producing metallic cores. Meteorite paleomagnetic records suggest that crystallization of these cores generated dynamo magnetic fields. Here we describe the magnetic history of the partially differentiated IIE iron meteorite parent body. This is the first planetesimal for which we have a time-resolved paleomagnetic record constrained by 40Ar/39Ar chronometry spanning several tens of million years (Ma). We find that the core of the IIE parent body generated a dynamo, likely powered by core crystallization, starting before 78 ± 13 Ma after solar system formation and lasting at least 80 Ma. Such extended core crystallization suggests that the core composed a substantial fraction of the body ((Formula presented.) 13%–19% core-to-body radius ratio depending on the body’s radius), indicating efficient core formation within some partially differentiated planetesimals.

Published
2021

9. Organic Material on Ceres: Insights from Visible and Infrared Space Observations

Author

Raponi, Andrea, De Sanctis, Maria Cristina, Carrozzo, Filippo Giacomo, Ciarniello, Mauro, Rousseau, Batiste, Ferrari, Marco, Ammannito, Eleonora, De Angelis, Simone, Vinogradoff, Vassilissa, Castillo-Rogez, Julie C, Tosi, Federico, Frigeri, Alessandro, Formisano, Michelangelo, Zambon, Francesca, Raymond, Carol A, and Russell, Christopher T

Subjects
Biochemistry and Cell Biology, Biological Sciences, Evolutionary Biology, Information and Computing Sciences, Applied Computing, astrobiology, organic material, Ceres, small bodies, Biochemistry and cell biology, Evolutionary biology, Applied computing
Abstract

The NASA/Dawn mission has acquired unprecedented measurements of the surface of the dwarf planet Ceres, the composition of which is a mixture of ultra-carbonaceous material, phyllosilicates, carbonates, organics, Fe-oxides, and volatiles as determined by remote sensing instruments including the VIR imaging spectrometer. We performed a refined analysis merging visible and infrared observations of Ceres' surface for the first time. The overall shape of the combined spectrum suggests another type of silicate not previously considered, and we confirmed a large abundance of carbon material. More importantly, by analyzing the local spectra of the organic-rich region of the Ernutet crater, we identified a reddening in the visible range, strongly correlated to the aliphatic signature at 3.4 µm. Similar reddening was found in the bright material making up Cerealia Facula in the Occator crater. This implies that organic material might be present in the source of the faculae, where brines and organics are mixed in an environment that may be favorable for prebiotic chemistry.

Published
2021

10. ASIME 2018 White Paper. In-Space Utilisation of Asteroids: Asteroid Composition -- Answers to Questions from the Asteroid Miners

Author

Graps, Amara L., Abbud-Madrid, Angel, Abell, Paul, Barucci, Antonella, Beck, Pierre, Bonal, Lydie, Bonin, Grant, Borgersen, Øystein Risan, Britt, Daniel, Campins, Humberto, Cannon, Kevin, Carnelli, Ian, Carry, Benoît, Crawford, Ian, de Leon, Julia, Drube, Line, Donaldson-Hanna, Kerri, Elvis, Martin, Fitzsimmons, Alan, Galache, JL, Green, Simon F., Grundmann, Jan Thimo, Herique, Alan, Hestroffer, Daniel, Hsieh, Henry, Kereszturi, Akos, Kueppers, Michael, Lewicki, Chris, Lin, Yangting, Mainzer, Amy, Michel, Patrick, Moon, Hong-Kyu, Nakamura, Tomoki, Penttila, Antti, Pursiainen, Sampsa, Raymond, Carol, Reddy, Vishnu, Rivkin, Andy, Sercel, Joel, Stickle, Angela, Tanga, Paolo, Takala, Mika, Wirtz, Tom, and Wu, YunZhao

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

In keeping with the Luxembourg government's initiative to support the future use of space resources, ASIME 2018 was held in Belval, Luxembourg on April 16-17, 2018. The goal of ASIME 2018: Asteroid Intersections with Mine Engineering, was to focus on asteroid composition for advancing the asteroid in-space resource utilisation domain. What do we know about asteroid composition from remote-sensing observations? What are the potential caveats in the interpretation of Earth-based spectral observations? What are the next steps to improve our knowledge on asteroid composition by means of ground-based and space-based observations and asteroid rendez-vous and sample return missions? How can asteroid mining companies use this knowledge? ASIME 2018 was a two-day workshop of almost 70 scientists and engineers in the context of the engineering needs of space missions with in-space asteroid utilisation. The 21 Questions from the asteroid mining companies were sorted into the four asteroid science themes: 1) Potential Targets, 2) Asteroid-Meteorite Links, 3) In-Situ Measurements and 4) Laboratory Measurements. The Answers to those Questions were provided by the scientists with their conference presentations and collected by A. Graps or edited directly into an open-access collaborative Google document or inserted by A. Graps using additional reference materials. During the ASIME 2018, first day and second day Wrap-Ups, the answers to the questions were discussed further. New readers to the asteroid mining topic may find the Conversation boxes and the Mission Design discussions especially interesting., Comment: Outcome from the ASIME 2018: Asteroid Intersections with Mine Engineering, Luxembourg. April 16-17, 2018. 65 Pages. arXiv admin note: substantial text overlap with arXiv:1612.00709

Published
2019

11. The Europa Clipper Magnetometer

Author

Kivelson, Margaret G., Jia, Xianzhe, Lee, Karen A., Raymond, Carol A., Khurana, Krishan K., Perley, Mitchell O., Biersteker, John B., Blacksberg, Jordana, Caron, Ryan, Cochrane, Corey J., Dawson, Olivia R., Harris, Camilla D. K., Jones, Jonathan E., Joy, Steven, Korth, Haje, Liu, Jiang, Maghsoudi, Elham, Murphy, Neil, Parsley, David, Pierce, David R., Racho, Caroline, Richter, Ingo, Russell, Christopher T., Sherman, Sarah, Strangeway, Robert J., Villarreal, Mickey, Weiss, Benjamin P., and Wigglesworth, Lee

Published
2023
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12. Exploring the Interior of Europa with the Europa Clipper

Author

Roberts, James H., McKinnon, William B., Elder, Catherine M., Tobie, Gabriel, Biersteker, John B., Young, Duncan, Park, Ryan S., Steinbrügge, Gregor, Nimmo, Francis, Howell, Samuel M., Castillo-Rogez, Julie C., Cable, Morgan L., Abrahams, Jacob N., Bland, Michael T., Chivers, Chase, Cochrane, Corey J., Dombard, Andrew J., Ernst, Carolyn, Genova, Antonio, Gerekos, Christopher, Glein, Christopher, Harris, Camilla D., Hay, Hamish C. F. C., Hayne, Paul O., Hedman, Matthew, Hussmann, Hauke, Jia, Xianzhe, Khurana, Krishan, Kiefer, Walter S., Kirk, Randolph, Kivelson, Margaret, Lawrence, Justin, Leonard, Erin J., Lunine, Jonathan I., Mazarico, Erwan, McCord, Thomas B., McEwen, Alfred, Paty, Carol, Quick, Lynnae C., Raymond, Carol A., Retherford, Kurt D., Roth, Lorenz, Rymer, Abigail, Saur, Joachim, Scanlan, Kirk, Schroeder, Dustin M., Senske, David A., Shao, Wencheng, Soderlund, Krista, Spiers, Elizabeth, Styczinski, Marshall J., Tortora, Paolo, Vance, Steven D., Villarreal, Michaela N., Weiss, Benjamin P., Westlake, Joseph H., Withers, Paul, Wolfenbarger, Natalie, Buratti, Bonnie, Korth, Haje, and Pappalardo, Robert T.

Published
2023
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13. Organic Material on Ceres: Insights from Visible and Infrared Space Observations.

Author

Raponi, Andrea, De Sanctis, Maria Cristina, Giacomo Carrozzo, Filippo, Ciarniello, Mauro, Rousseau, Batiste, Ferrari, Marco, Ammannito, Eleonora, De Angelis, Simone, Vinogradoff, Vassilissa, Castillo-Rogez, Julie C, Tosi, Federico, Frigeri, Alessandro, Formisano, Michelangelo, Zambon, Francesca, Raymond, Carol A, and Russell, Christopher T

Subjects
Ceres, astrobiology, organic material, small bodies
Abstract

The NASA/Dawn mission has acquired unprecedented measurements of the surface of the dwarf planet Ceres, the composition of which is a mixture of ultra-carbonaceous material, phyllosilicates, carbonates, organics, Fe-oxides, and volatiles as determined by remote sensing instruments including the VIR imaging spectrometer. We performed a refined analysis merging visible and infrared observations of Ceres' surface for the first time. The overall shape of the combined spectrum suggests another type of silicate not previously considered, and we confirmed a large abundance of carbon material. More importantly, by analyzing the local spectra of the organic-rich region of the Ernutet crater, we identified a reddening in the visible range, strongly correlated to the aliphatic signature at 3.4 µm. Similar reddening was found in the bright material making up Cerealia Facula in the Occator crater. This implies that organic material might be present in the source of the faculae, where brines and organics are mixed in an environment that may be favorable for prebiotic chemistry.

Published
2020

15. The Psyche Magnetometry Investigation

Author

Weiss, Benjamin P., Merayo, José M. G., Ream, Jodie B., Oran, Rona, Brauer, Peter, Cochrane, Corey J., Cloutier, Kyle, Elkins-Tanton, Linda T., Jørgensen, John L., Maurel, Clara, Park, Ryan S., Polanskey, Carol A., de Soria Santacruz-Pich, Maria, Raymond, Carol A., Russell, Christopher T., Wenkert, Daniel, Wieczorek, Mark A., and Zuber, Maria T.

Published
2023
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16. Spectrophotometric Modeling and Mapping of Ceres

Author

Li, Jian-Yang, Schröder, Stefan E., Mottola, Stefano, Nathues, Andreas, Castillo-Rogez, Julie C., Schorghofer, Norbert, Williams, David A., Ciarniello, Mauro, Longobardo, Andrea, Raymond, Carol A., and Russell, Christopher T.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We report a comprehensive analysis of the global spectrophotometric properties of Ceres using Dawn Framing Camera images collected from April to June 2015 during the RC3 and Survey mission phases. The single-scattering albedo of Ceres at 555 nm is 0.14$\pm$0.04, the geometric albedo is 0.096$\pm$0.006, and the Bond albedo is 0.037$\pm$0.002. The asymmetry factors calculated from the best-fit two-term Henyey-Greenstein (HG) single-particle phase function (SPPF) show a wavelength dependence, suggesting that the phase reddening of Ceres is dominated by single-particle scattering rather than multiple scattering or small-scale surface roughness. The Hapke roughness parameter of Ceres is derived to be 20$^\circ\pm$6$^\circ$ with no wavelength dependence. The phase function of Ceres shows appreciably strong scattering around 90$^\circ$ phase angle that cannot be fitted with a single-term HG SPPF, suggesting possible stronger forward scattering than other asteroids previously analyzed with spacecraft data. We speculate that such a scattering characteristic of Ceres might be related to its unique surface composition. We grouped the reflectance data into a 1$^\circ$ latitude-longitude grid and fitted each grid independently to study the spatial variations of photometric properties. The albedo and color maps are consistent with previous studies. The SPPF over the surface of Ceres shows stronger backscattering associated with lower albedo and vice versa, consistent with the general trend among asteroids. The Hapke roughness parameter does not vary much across the surface of Ceres, except for the ancient Vendimia Planitia region that has a slightly higher roughness. Based on the wavelength dependence of the SPPF of Ceres, we hypothesize that its regolith grains either contain a considerable fraction of $\lessapprox\mu$m-sized particles, or are strongly affected by internal scatterers of this size., Comment: 43 pages, 3 tables, 17 figures, accepted by Icarus

Published
2018
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17. Ceres' opposition effect observed by the Dawn framing camera

Author

Schröder, Stefan E., Li, Jian-Yang, Rayman, Marc D., Joy, Steven P., Polanskey, Carol A., Carsenty, Uri, Castillo-Rogez, Julie C., Ciarniello, Mauro, Jaumann, Ralf, Longobardo, Andrea, McFadden, Lucy A., Mottola, Stefano, Sykes, Mark, Raymond, Carol A., and Russell, Christopher T.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

The surface reflectance of planetary regoliths may increase dramatically towards zero phase angle, a phenomenon known as the opposition effect (OE). Two physical processes that are thought to be the dominant contributors to the brightness surge are shadow hiding (SH) and coherent backscatter (CB). The occurrence of shadow hiding in planetary regoliths is self-evident, but it has proved difficult to unambiguously demonstrate CB from remote sensing observations. One prediction of CB theory is the wavelength dependence of the OE angular width. The Dawn spacecraft observed the OE on the surface of dwarf planet Ceres. We characterize the OE over the resolved surface, including the bright Cerealia Facula, and to find evidence for SH and/or CB. We analyze images of the Dawn framing camera by means of photometric modeling of the phase curve. We find that the OE of most of the investigated surface has very similar characteristics, with an enhancement factor of 1.4 and a FWHM of 3{\deg} (broad OE). A notable exception are the fresh ejecta of the Azacca crater, which display a very narrow brightness enhancement that is restricted to phase angles $< 0.5${\deg} (narrow OE); suggestively, this is in the range in which CB is thought to dominate. We do not find a wavelength dependence for the width of the broad OE, and lack the data to investigate the dependence for the narrow OE. The prediction of a wavelength-dependent CB width is rather ambiguous. The zero-phase observations allow us to determine Ceres' visible geometric albedo as $p_V = 0.094 \pm 0.005$. A comparison with other asteroids suggests that Ceres' broad OE is typical for an asteroid of its spectral type, with characteristics that are primarily linked to surface albedo. Our analysis suggests that CB may occur on the dark surface of Ceres in a highly localized fashion., Comment: Credit: Schr\"oder et al, A&A in press, 2018, reproduced with permission, \copyright ESO

Published
2018
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18. Nature, formation, and distribution of carbonates on Ceres.

Author

Carrozzo, Filippo Giacomo, De Sanctis, Maria Cristina, Raponi, Andrea, Ammannito, Eleonora, Castillo-Rogez, Julie, Ehlmann, Bethany L, Marchi, Simone, Stein, Nathaniel, Ciarniello, Mauro, Tosi, Federico, Capaccioni, Fabrizio, Capria, Maria Teresa, Fonte, Sergio, Formisano, Michelangelo, Frigeri, Alessandro, Giardino, Marco, Longobardo, Andrea, Magni, Gianfranco, Palomba, Ernesto, Zambon, Francesca, Raymond, Carol A, and Russell, Christopher T

Abstract

Different carbonates have been detected on Ceres, and their abundance and spatial distribution have been mapped using a visible and infrared mapping spectrometer (VIR), the Dawn imaging spectrometer. Carbonates are abundant and ubiquitous across the surface, but variations in the strength and position of infrared spectral absorptions indicate variations in the composition and amount of these minerals. Mg-Ca carbonates are detected all over the surface, but localized areas show Na carbonates, such as natrite (Na2CO3) and hydrated Na carbonates (for example, Na2CO3·H2O). Their geological settings and accessory NH4-bearing phases suggest the upwelling, excavation, and exposure of salts formed from Na-CO3-NH4-Cl brine solutions at multiple locations across the planet. The presence of the hydrated carbonates indicates that their formation/exposure on Ceres' surface is geologically recent and dehydration to the anhydrous form (Na2CO3) is ongoing, implying a still-evolving body.

Published
2018

19. Variations in the amount of water ice on Ceres' surface suggest a seasonal water cycle.

Author

Raponi, Andrea, De Sanctis, Maria Cristina, Frigeri, Alessandro, Ammannito, Eleonora, Ciarniello, Mauro, Formisano, Michelangelo, Combe, Jean-Philippe, Magni, Gianfranco, Tosi, Federico, Carrozzo, Filippo Giacomo, Fonte, Sergio, Giardino, Marco, Joy, Steven P, Polanskey, Carol A, Rayman, Marc D, Capaccioni, Fabrizio, Capria, Maria Teresa, Longobardo, Andrea, Palomba, Ernesto, Zambon, Francesca, Raymond, Carol A, and Russell, Christopher T

Abstract

The dwarf planet Ceres is known to host a considerable amount of water in its interior, and areas of water ice were detected by the Dawn spacecraft on its surface. Moreover, sporadic water and hydroxyl emissions have been observed from space telescopes. We report the detection of water ice in a mid-latitude crater and its unexpected variation with time. The Dawn spectrometer data show a change of water ice signatures over a period of 6 months, which is well modeled as ~2-km2 increase of water ice. The observed increase, coupled with Ceres' orbital parameters, points to an ongoing process that seems correlated with solar flux. The reported variation on Ceres' surface indicates that this body is chemically and physically active at the present time.

Published
2018

20. The Psyche Gravity Investigation

Author

Zuber, Maria T., Park, Ryan S., Elkins-Tanton, Linda T., Bell, III, J. F., Bruvold, Kristoffer N., Bercovici, David, Bills, Bruce G., Binzel, Richard P., Jaumann, R., Marchi, Simone, Raymond, Carol A., Roatsch, T., Wang, Charles C., Weiss, Benjamin P., Wenkert, Daniel, and Wieczorek, Mark A.

Published
2022
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21. Surface Albedo and Spectral Variability of Ceres

Author

Li, Jian-Yang, Reddy, Vishnu, Nathues, Andreas, Corre, Lucille Le, Izawa, Matthew R. M., Clouts, Edward A., Sykes, Mark V., Carsenty, Uri, Castillo-Rogez, Julie C., Hoffmann, Martin, Jaumann, Ralf, Krohn, Katrin, Mottola, Stefano, Prettyman, Thomas H., Schaefer, Michael, Schenk, Paul, Schröder, Stefan E., Williams, David A., Smith, David E., Zuber, Maria T., Konopliv, Alexander S., Park, Ryan S., Raymond, Carol A., and Russell, Christopher T.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Previous observations suggested that Ceres has active but possibly sporadic water outgassing, and possibly varying spectral characteristics in a time scale of months. We used all available data of Ceres collected in the past three decades from the ground and the Hubble Space Telescope, and the newly acquired images by Dawn Framing Camera to search for spectral and albedo variability on Ceres, in both a global scale and local regions, particularly the bright spots inside Occator crater, over time scales of a few months to decades. Our analysis has placed an upper limit on the possible temporal albedo variation on Ceres. Sporadic water vapor venting, or any possibly ongoing activity on Ceres, is not significant enough to change the albedo or the area of the bright features in Occator crater by >15%, or the global albedo by >3% over various time scales that we searched. Recently reported spectral slope variations can be explained by changing Sun-Ceres-Earth geometry. The active area on Ceres is less than 1 km$^2$, too small to cause global albedo and spectral variations detectable in our data. Impact ejecta due to impacting projectiles of tens of meters in size like those known to cause observable changes to the surface albedo on Asteroid Scheila cannot cause detectable albedo change on Ceres due to its relatively large size and strong gravity. The water vapor activity on Ceres is independent of Ceres' heliocentric distance, rulling out the possibility of comet-like sublimation process as a possible mechanism driving the activity., Comment: Accepted by ApJ Lett

Published
2016
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23. Epilogue

Author

Marchi, Simone, primary, Raymond, Carol A., additional, and Russell, Christopher T., additional

Published
2022
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24. Distinguishing the Origin of Asteroid (16) Psyche

Author

Elkins-Tanton, Linda T., Asphaug, Erik, Bell, III, James F., Bierson, Carver J., Bills, Bruce G., Bottke, William F., Courville, Samuel W., Dibb, Steven D., Jun, Insoo, Lawrence, David J., Marchi, Simone, McCoy, Timothy J., Merayo, Jose M. G., Oran, Rona, O’Rourke, Joseph G., Park, Ryan S., Peplowski, Patrick N., Prettyman, Thomas H., Raymond, Carol A., Weiss, Benjamin P., Wieczorek, Mark A., and Zuber, Maria T.

Published
2022
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25. Correction to: The Psyche Topography and Geomorphology Investigation

Author

Jaumann, Ralf, Bell, III, James F., Polanskey, Carol A., Raymond, Carol A., Aspaugh, Erik, Bercovici, David, Bills, Bruce R., Binzel, Richard, Bottke, William, Christoph, John M., Marchi, Simone, Neesemann, Alicia, Otto, Katharina, Park, Ryan S., Preusker, Frank, Roatsch, Thomas, Williams, David A., Wieczorek, Mark A., and Zuber, Maria T.

Published
2022
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26. Constraining the Cratering Chronology of Vesta

Author

O'Brien, David P., Marchi, Simone, Morbidelli, Alessandro, Bottke, William F., Schenk, Paul M., Russell, Christopher T., and Raymond, Carol A.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Vesta has a complex cratering history, with ancient terrains as well as recent large impacts that have led to regional resurfacing. Crater counts can help constrain the relative ages of different units on Vesta's surface, but converting those crater counts to absolute ages requires a chronology function. We present a cratering chronology based on the best current models for the dynamical evolution of asteroid belt, and calibrate it to Vesta using the record of large craters on its surface. While uncertainties remain, our chronology function is broadly consistent with an ancient surface of Vesta as well as other constraints such as the bombardment history of the rest of the inner Solar System and the Ar-Ar age distribution of howardite, eucrite and diogenite (HED) meteorites from Vesta., Comment: Accepted to Planetary and Space Science on May 1, 2014

Published
2014
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27. The Psyche Topography and Geomorphology Investigation

Author

Jaumann, Ralf, Bell, III, James F., Polanskey, Carol A., Raymond, Carol A., Aspaugh, Erik, Bercovici, David, Bills, Bruce R., Binzel, Richard, Bottke, William, Christoph, John M., Marchi, Simone, Neesemann, Alicia, Otto, Katharina, Park, Ryan S., Preusker, Frank, Roatsch, Thomas, Williams, David A., Wieczorek, Mark A., and Zuber, Maria T.

Published
2022
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28. Geomorphological evidence for transient water flow on Vesta

Author

Scully, Jennifer EC, Russell, Christopher T, Yin, An, Jaumann, Ralf, Carey, Elizabeth, Castillo-Rogez, Julie, McSween, Harry Y, Raymond, Carol A, Reddy, Vishnu, and Le Corre, Lucille

Subjects
Vesta, geomorphology, gullies, lobate deposits, transient water flow, volatiles, Physical Sciences, Earth Sciences, Geochemistry & Geophysics
Abstract

Vesta, the second most massive asteroid, has long been perceived as anhydrous. Recent studies suggesting the presence of hydrated minerals and past subsurface water have challenged this long-standing perception. Yet, direct geologic indications of water activity on Vesta's surface were unexpected. Herein we show evidence that transient water flowed on the surface, in a debris-flow-like process, and left distinctive geomorphologic features. Based on detailed analysis of highest-resolution (~20 m/pixel) images obtained by the Dawn spacecraft, we identify a class of locally occurring, interconnected and curvilinear gully networks on the walls of young (< hundreds of Ma) impact craters, ending in lobate deposits near the crater floors. As curvilinear systems only occur within impact craters, we propose that they formed by a particulate-dominated flow of transient water that was released from buried ice-bearing deposits by impact-induced heating and melting. This interpretation is in accordance with the occurrence of pitted terrain on lobate deposits and crater floors. Pitted terrain is proposed to result from the degassing of volatiles. The proposed buried ice-bearing deposits are likely localized in extent and may be currently extant in Vesta's subsurface. Together with the discovery of water evaporation on Ceres and water activity on several small asteroids, our results support the new paradigm that water is widespread in the asteroid belt.

Published
2015

29. Global Photometric Properties of Asteroid (4) Vesta Observed with Dawn Framing Camera

Author

Li, Jian-Yang, Corre, Lucille Le, Schröder, Stefan E., Reddy, Vishnu, Denevi, Brett W., Buratti, Bonnie J., Mottola, Stefano, Hoffmann, Martin, Gutierrez-Marques, Pablo, Nathues, Andreas, Russell, Christopher T., and Raymond, Carol A.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Dawn spacecraft orbited Vesta for more than one year and collected a huge volume of multispectral, high-resolution data in the visible wavelengths with the Framing Camera. We present a detailed disk-integrated and disk-resolved photometric analysis using the Framing Camera images with the Minnaert model and the Hapke model, and report our results about the global photometric properties of Vesta. The photometric properties of Vesta show weak or no dependence on wavelengths, except for the albedo. At 554 nm, the global average geometric albedo of Vesta is 0.38+/-0.04, and the Bond albedo range is 0.20+/-0.02. The bolometric Bond albedo is 0.18+/-0.01. The phase function of Vesta is similar to those of S-type asteroids. Vesta's surface shows a single-peaked albedo distribution with a full-width-half-max ~17% relative to the global average. This width is much smaller than the full range of albedos (from ~0.55x to >2x global average) in localized bright and dark areas of a few tens of km in sizes, and is probably a consequence of significant regolith mixing on the global scale. Rheasilvia basin is about 10% brighter than the global average. The phase reddening of Vesta measured from Dawn Framing Camera images is comparable or slightly stronger than that of Eros as measured by the Near Earth Asteroid Rendezvous mission, but weaker than previous measurements based on ground-based observations of Vesta and laboratory measurements of HED meteorites. The photometric behaviors of Vesta are best described by the Hapke model and the Akimov disk- function, when compared with the Minnaert model, Lommel-Seeliger model, and Lommel- Seeliger-Lambertian model. The traditional approach for photometric correction is validated for Vesta for >99% of its surface where reflectance is within +/-30% of global average., Comment: 94 pages (double-spaced), 6 tables, 19 figures

Published
2013
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30. Olivine or Impact Melt: Nature of the 'Orange' Material on Vesta from Dawn

Author

Corre, Lucille Le, Reddy, Vishnu, Schmedemann, Nico, Becker, Kris J., O'Brien, David P., Yamashita, Naoyuki, Peplowski, Patrick N., Prettyman, Thomas H., Li, Jian-Yang, Cloutis, Edward A., Denevi, Brett W., Kneissl, Thomas, Palmer, Eric, Gaskell, Robert W., Nathues, Andreas, Gaffey, Michael J., Mittlefehldt, David W., Garry, William B., Sierks, Holger, Russell, Christopher T., and Raymond, Carol A.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Geophysics, Physics - Space Physics
Abstract

NASA's Dawn mission observed a great variety of colored terrains on asteroid (4) Vesta during its survey with the Framing Camera (FC). Here we present a detailed study of the orange material on Vesta, which was first observed in color ratio images obtained by the FC and presents a red spectral slope. The orange material deposits can be classified into three types, a) diffuse ejecta deposited by recent medium-size impact craters (such as Oppia), b) lobate patches with well-defined edges, and c) ejecta rays from fresh-looking impact craters. The location of the orange diffuse ejecta from Oppia corresponds to the olivine spot nicknamed "Leslie feature" first identified by Gaffey (1997) from ground-based spectral observations. The distribution of the orange material in the FC mosaic is concentrated on the equatorial region and almost exclusively outside the Rheasilvia basin. Our in-depth analysis of the composition of this material uses complementary observations from FC, the visible and infrared spectrometer (VIR), and the Gamma Ray and Neutron Detector (GRaND). Combining the interpretations from the topography, geomorphology, color and spectral parameters, and elemental abundances, the most probable analog for the orange material on Vesta is impact melt.

Published
2013
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31. Comparing Dawn, Hubble Space Telescope, and Ground-Based Interpretations of (4) Vesta

Author

Reddy, Vishnu, Li, Jian-Yang, Corre, Lucille Le, Scully, Jennifer E. C., Gaskell, Robert, Russell, Christopher T., Park, Ryan S., Nathues, Andreas, Raymond, Carol, Gaffey, Michael J., Sierks, Holger, Becker, Kris J., and McFadden, Lucy A.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Geophysics, Physics - Instrumentation and Detectors, Physics - Space Physics
Abstract

Observations of asteroid 4 Vesta by NASA's Dawn spacecraft are interesting because its surface has the largest range of albedo, color and composition of any other asteroid visited by spacecraft to date. These hemispherical and rotational variations in surface brightness and composition have been attributed to impact processes since Vesta's formation. Prior to Dawn's arrival at Vesta, its surface properties were the focus of intense telescopic investigations for nearly a hundred years. Ground-based photometric and spectroscopic observations first revealed these variations followed later by those using Hubble Space Telescope. Here we compare interpretations of Vesta's rotation period, pole, albedo, topographic, color, and compositional properties from ground-based telescopes and HST with those from Dawn. Rotational spectral variations observed from ground-based studies are also consistent with those observed by Dawn. While the interpretation of some of these features was tenuous from past data, the interpretations were reasonable given the limitations set by spatial resolution and our knowledge of Vesta and HED meteorites at that time. Our analysis shows that ground-based and HST observations are critical for our understanding of small bodies and provide valuable support for ongoing and future spacecraft missions., Comment: Pages: 51, Figures: 9, Tables: 5

Published
2013
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32. Lithologic Mapping of HED Terrains on Vesta using Dawn Framing Camera Color Data

Author

Thangjam, Guneshwar, Reddy, Vishnu, Corre, Lucille Le, Nathues, Andreas, Sierks, Holger, Hiesinger, Harald, Li, Jian-Yang, Sanchez, Juan A., Russell, Christopher T., Gaskell, Robert, and Raymond, Carol

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

The surface composition of Vesta, the most massive intact basaltic object in the asteroid belt, is interesting because it provides us with an insight into magmatic differentiation of planetesimals that eventually coalesced to form the terrestrial planets. The distribution of lithologic and compositional units on the surface of Vesta provides important constraints on its petrologic evolution, impact history and its relationship with Vestoids and howardite-eucrite-diogenite (HED) meteorites. Using color parameters (band tilt and band curvature) originally developed for analyzing lunar data, we have identified and mapped HED terrains on Vesta in Dawn Framing Camera (FC) color data. The average color spectrum of Vesta is identical to that of howardite regions, suggesting an extensive mixing of surface regolith due to impact gardening over the course of solar system history. Our results confirm the hemispherical dichotomy (east-west and north-south) in albedo/color/composition that has been observed by earlier studies. The presence of diogenite-rich material in the southern hemisphere suggests that it was excavated during the formation of the Rheasilvia and Veneneia basins. Our lithologic mapping of HED regions provides direct evidence for magmatic evolution of Vesta with diogenite units in Rheasilvia forming the lower crust of a differentiated object., Comment: Accepted for Meteoritics and Planetary Science special issue for Composition of Vesta/Dawn Mission

Published
2013
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34. Ultraviolet Spectroscopy of Asteroid (4) Vesta

Author

Li, Jian-Yang, Bodewits, Dennis, Feaga, Lori M., Landsman, Wayne, A'Hearn, Michael F., Mutchler, Max J., Russell, Christopher T., McFadden, Lucy A., and Raymond, Carol A.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We report a comprehensive review of the UV-visible spectrum and rotational lightcurve of Vesta combining new observations by Hubble Space Telescope and Swift Gamma-ray Burst Observatory with archival International Ultraviolet Explorer observations. The geometric albedos of Vesta from 220 nm to 953 nm are derived by carefully comparing these observations from various instruments at different times and observing geometries. Vesta has a rotationally averaged geometric albedo of 0.09 at 250 nm, 0.14 at 300 nm, 0.26 at 373 nm, 0.38 at 673 nm, and 0.30 at 950 nm. The linear spectral slope as measured between 240 and 320 nm in the ultraviolet displays a sharp minimum near a sub-Earth longitude of 20^{\circ}, and maximum in the eastern hemisphere. This is consistent with the longitudinal distribution of the spectral slope in the visible wavelength. The photometric uncertainty in the ultraviolet is ~20%, and in the visible wavelengths it is better than 10%. The amplitude of Vesta's rotational lightcurves is ~10% throughout the range of wavelengths we observed, but is smaller at 950 nm (~6%) near the 1-\mum band center. Contrary to earlier reports, we found no evidence for any difference between the phasing of the ultraviolet and visible/near-infrared lightcurves with respect to sub-Earth longitude. Vesta's average spectrum between 220 and 950 nm can well be described by measured reflectance spectra of fine particle howardite-like materials of basaltic achondrite meteorites. Combining this with the in-phase behavior of the ultraviolet, visible, and near-infrared lightcurves, and the spectral slopes with respect to the rotational phase, we conclude that there is no global ultraviolet/visible reversal on Vesta. Consequently, this implies a lack of global space weathering on Vesta, as previously inferred from visible-near-infrared data., Comment: 44 pages, 5 figures, 1 table

Published
2011
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35. Visualizing Spacecraft Magnetic Fields on the Web and in VR

Author

Nuernberger, Benjamin, primary, Cochrane, Corey, additional, Williams, Justin, additional, Klyne, Lyle, additional, Gottscholl, Andreas, additional, Kraus, Hannes, additional, Soriano, Angelo Ryan, additional, Narvaez, Pablo S., additional, Huang, Chi-Chien Nelson, additional, Dang, Katherine, additional, Gonzales, Edward C., additional, Murphy, Neil, additional, and Raymond, Carol A., additional

Published
2023
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39. Relict Ocean Worlds: Ceres

Author

De Sanctis, Maria Cristina, Mitri, Giuseppe, Castillo-Rogez, Julie, House, Christopher H., Marchi, Simome, Raymond, Carol A., and Sekine, Yasuhito

Published
2020
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43. An Approach to Magnetic Cleanliness for the Psyche Mission

Author

Lord, P, de Soria-Santacruz Pich, Maria, Soriano, Manny, Quintero, Ofelia, Wong, Frankie, Hart, Shirley, Bone, Brian, Solish, Ben, Trofimov, Denis, Bradford, Emma, Raymond, Carol, Narvaez, Pablo, Ream, J, Oran, R, Weiss, B.P, Ascrizzi, K, Keys, C, Russell, C, and Elkins-Tanton, L

Abstract

In this paper we describe the derivation of these requirements, test and analyses methods, and more generally the processes and procedures that govern the magnetics program for Psyche. The paper concludes with a discussion of the challenges and work to go and a comparison with the magnetic control processes of other missions with similar magnetic cleanliness constraints.

Published
2020

44. An Approach to Magnetic Cleanliness for the Psyche Mission

Author

de Soria-Santacruz Pich, Maria, Soriano, Manny, Quintero, Ofelia, Wong, Frankie, Hart, Shirley, Bone, Brian, Solish, Ben, Trofimov, Denis, Bradford, Emma, Raymond, Carol, Narvaez, Pablo, Ream, J, Oran, R, Weiss, B.P, Ascrizzi, K, Keys, C, Lord, P, Russell, C, and Elkins-Tanton, L

Published
2020

48. The Europa Clipper Magnetometer

Author

Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Kivelson, Margaret G., Jia, Xianzhe, Lee, Karen A., Raymond, Carol A., Khurana, Krishan K., Perley, Mitchell O., Biersteker, John B., Blacksberg, Jordana, Caron, Ryan, Cochrane, Corey J., Dawson, Olivia R., Harris, Camilla D. K., Jones, Jonathan E., Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Kivelson, Margaret G., Jia, Xianzhe, Lee, Karen A., Raymond, Carol A., Khurana, Krishan K., Perley, Mitchell O., Biersteker, John B., Blacksberg, Jordana, Caron, Ryan, Cochrane, Corey J., Dawson, Olivia R., Harris, Camilla D. K., and Jones, Jonathan E.

Abstract

Global-scale properties of Europa’s putative ocean, including its depth, thickness, and conductivity, can be established from measurements of the magnetic field on multiple close flybys of the moon at different phases of the synodic and orbital periods such as those planned for the Europa Clipper mission. The Europa Clipper Magnetometer (ECM) has been designed and constructed to provide the required high precision, temporally stable measurements over the range of temperatures and other environmental conditions that will be encountered in the solar wind and at Jupiter. Three low-noise, tri-axial fluxgate sensors provided by the University of California, Los Angeles are controlled by an electronics unit developed at NASA’s Jet Propulsion Laboratory. Each fluxgate sensor measures the vector magnetic field over a wide dynamic range (±4000 nT per axis) with a resolution of 8 pT. A rigorous magnetic cleanliness program has been adopted for the spacecraft and its payload. The sensors are mounted far out on an 8.5 m boom to form a configuration that makes it possible to measure the remaining spacecraft field and remove its contribution to data from the outboard sensor. This paper provides details of the magnetometer design, implementation and testing, the ground calibrations and planned calibrations in cruise and in orbit at Jupiter, and the methods to be used to extract Europa’s inductive response from the data. Data will be collected at nominal rates of 1 or 16 samples/s and will be processed at UCLA and delivered to the Planetary Data System in a timely manner.

Published
2023

49. Magnetic Field Modeling and Visualization of the Europa Clipper Spacecraft

Author

Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Cochrane, Corey J., Murphy, Neil, Raymond, Carol A., Biersteker, John B., Dang, Katherine, Jia, Xianzhe, Korth, Haje, Narvaez, Pablo, Ream, Jodie B., Weiss, Benjamin P., Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Cochrane, Corey J., Murphy, Neil, Raymond, Carol A., Biersteker, John B., Dang, Katherine, Jia, Xianzhe, Korth, Haje, Narvaez, Pablo, Ream, Jodie B., and Weiss, Benjamin P.

Abstract

The goal of NASA’s Europa Clipper Mission is to investigate the habitability of the subsurface ocean within the Jovian moon Europa using a suite of ten investigations. The Europa Clipper Magnetometer (ECM) and Plasma Instrument for Magnetic Sounding (PIMS) investigations will be used in unison to characterize the thickness and electrical conductivity of Europa’s subsurface ocean and the thickness of the ice shell by sensing the induced magnetic field, driven by the strong time-varying magnetic field of the Jovian environment. However, these measurements will be obscured by the magnetic field originating from the Europa Clipper spacecraft. In this work, a magnetic field model of the Europa Clipper spacecraft is presented, characterized with over 260 individual magnetic sources comprising various ferromagnetic and soft-magnetic materials, compensation magnets, solenoids, and dynamic electrical currents flowing within the spacecraft. This model is used to evaluate the magnetic field at arbitrary points around the spacecraft, notably at the locations of the three fluxgate magnetometer sensors and four Faraday cups which make up ECM and PIMS, respectively. The model is also used to evaluate the magnetic field uncertainty at these locations via a Monte Carlo approach. Furthermore, both linear and non-linear gradiometry fitting methods are presented to demonstrate the ability to reliably disentangle the spacecraft field from the ambient using an array of three fluxgate magnetometer sensors mounted along an 8.5-meter (m) long boom. The method is also shown to be useful for optimizing the locations of the magnetometer sensors along the boom. Finally, we illustrate how the model can be used to visualize the magnetic field lines of the spacecraft, thus providing very insightful information for each investigation.

Published
2023

50. Magnetic gradiometry using frequency-domain filtering

Author

Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Ream, Jodie B, Weiss, Benjamin P, Oran, Rona, Raymond, Carol A, Polanskey, Carol A, Wenkert, Daniel D, Elkins-Tanton, Linda T, Hart, Richard A, Russell, Christopher T, Merayo, Jose MG, Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Ream, Jodie B, Weiss, Benjamin P, Oran, Rona, Raymond, Carol A, Polanskey, Carol A, Wenkert, Daniel D, Elkins-Tanton, Linda T, Hart, Richard A, Russell, Christopher T, and Merayo, Jose MG

Abstract

Abstract Accurate measurements of ambient planetary and interplanetary magnetic fields using spacecraft magnetometers typically require accounting for interfering magnetic fields generated by the flight system (FS). The most common method for removing FS-generated time-variable magnetic fields is narrow-band and low-pass filtering of magnetic field data in the frequency domain. However, if fluctuations in the ambient field contain frequencies overlapping those in the FS field, it can be difficult to construct a filter that will not affect both signals. Here we present an alternate method for removing FS time-variable signatures from magnetic field measurements. For spacecraft that make use of a magnetic gradiometer (i.e. with two or more instruments on a boom at different distances from the center of the spacecraft), the dominant frequencies in the FS field can be identified using spectra of the differenced field components. The amplitudes of the FS field at those frequencies can then be suppressed without removing spectral peaks present in the ambient field. We demonstrate the successful application of this method, referred to as gradiometry peak suppression, both to modeled data sets and to 128 Hz Venus Express magnetometer data.

Published
2023

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