Your search keyword '"Corey J. Cochrane"' showing total 10 results

1. Stronger Evidence of a Subsurface Ocean Within Callisto From a Multifrequency Investigation of Its Induced Magnetic Field

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Author

Corey J. Cochrane, Steven D. Vance, Julie C. Castillo‐Rogez, Marshall J. Styczinski, and Lucas Liuzzo

Subjects

Callisto, ocean worlds, magnetic induction, Galileo, magnetometer, ionosphere, Geology, QE1-996.5, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract The magnetometer investigation of the Galileo mission used the phenomenon of magnetic induction to produce the most compelling evidence that subsurface oceans exist within our solar system. Although there is high certainty that the induced field measured at Europa is attributed to a global‐scale subsurface ocean, there is still uncertainty around the possibility that the induced field measured at Callisto is evidence of an ocean. This uncertainty is due to the presence of a conductive ionosphere, which will also produce an induction signal in response to Jupiter's strong time‐varying magnetic field. Therefore, it is not yet known whether the observed induced field is attributable to the ionosphere, an ocean, or a combination of both. In this work, we use previously published simulations of Callisto's plasma interaction in combination with both an inverse and an ensemble forward modeling method to highlight the plausible range of interior properties of Callisto. We further constrain the ocean thickness and conductivity, ice shell thickness, and ionospheric conductivity that are required to explain the Galileo magnetometer observations. This is the first study to jointly consider all flybys to constrain the driving field and three flybys (C03, C09, and C10) to assess the induction response. Our results suggest that Callisto's response more likely arises from the combination of a thick conductive ocean and an ionosphere rather than from an ionosphere alone. more...

Published

2025

2. Enhancing the electrical readout of the spin-dependent recombination current in SiC JFETs for EDMR based magnetometry using a tandem (de-)modulation technique

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Author

Andreas Gottscholl, Hannes Kraus, Thomas Aichinger, and Corey J. Cochrane

Subjects

Medicine, Science

Abstract

Abstract Electrically detected magnetic resonance (EDMR) is a promising method to readout spins in miniaturized devices utilized as quantum magnetometers. However, the sensitivity has remained challenging. In this study, we present a tandem (de-)modulation technique based on a combination of magnetic field and radio frequency modulation. By enabling higher demodulation frequencies to avoid 1/f-noise, enhancing self-calibration capabilities, and eliminating background signals by 3 orders of magnitude, this technique represents a significant advancement in the field of EDMR-based sensors. This novel approach paves the way for EDMR being the ideal candidate for ultra-sensitive magnetometry at ambient conditions without any optical components, which brings it one step closer to a chip-based quantum sensor for future applications. more...

Published

2024

3. Characterization of Icy Moon Hydrospheres Through Joint Inversion of Gravity and Magnetic Field Measurements

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Author

Flavio Petricca, Antonio Genova, Julie C. Castillo‐Rogez, Marshall J. Styczinski, Corey J. Cochrane, and Steven D. Vance

Subjects

interior structure, icy moons, gravity field, magnetic induction, joint inversion, hydrosphere, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract Several bodies in the outer solar system are believed to host liquid water oceans underneath their icy surfaces. Knowledge of the hydrosphere properties is essential for understanding and assessing their habitability. We introduce a methodology based on Bayesian inference that enables a robust characterization of the hydrosphere through the combination of gravity and magnetic induction data. The interior models retrieved are consistent with the geophysical observations, leading to probability distributions for the relevant interior properties. We apply this joint inversion approach to constrain Europa's hydrosphere with gravity and magnetic field measurements acquired by the Galileo mission. Our results indicate that the combination of these datasets allows simultaneous constraints on the ice shell and ocean thickness, enhancing our knowledge of the hydrosphere structure. This methodology is valuable for synergistic interior science investigations of several missions in development or in planning, including Europa Clipper, JUICE and the Uranus Orbiter and Probe. more...

Published

2023

4. Revealing the Interior Structure of Icy Moons with a Bayesian Approach to Magnetic Induction Measurements

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Author

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

Subjects

Europa, Galilean satellites, Magnetic fields, Planetary interior, Markov chain Monte Carlo, Astronomy, QB1-991

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 multifrequency induction and Bayesian inference applied to magnetometry measurements anticipated from the upcoming Europa Clipper mission. Using simulated data from the Europa Clipper Magnetometer, our approach can accurately retrieve a wide range of plausible internal structures for Europa. In particular, the ocean conductivity is recovered to within ±50% for all internal structure scenarios considered, and the ocean thickness can be retrieved to within ±25 km for five out of seven scenarios. Characterization of the ice shell thickness to ±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. more...

Published

2023

5. A CO2 Cycle on Ariel? Radiolytic Production and Migration to Low-latitude Cold Traps

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Author

Richard J. Cartwright, Tom A. Nordheim, Riley A. DeColibus, William M. Grundy, Bryan J. Holler, Chloe B. Beddingfield, Michael M. Sori, Michael P. Lucas, Catherine M. Elder, Leonardo H. Regoli, Dale P. Cruikshank, Joshua P. Emery, Erin J. Leonard, and Corey J. Cochrane more...

Subjects

Uranian satellites, Planetary surfaces, Surface composition, Surface processes, Surface ices, Astronomy, QB1-991

Abstract

CO _2 ice is present on the trailing hemisphere of Ariel but is mostly absent from its leading hemisphere. The leading/trailing hemispherical asymmetry in the distribution of CO _2 ice is consistent with radiolytic production of CO _2 , formed by charged particle bombardment of H _2 O ice and carbonaceous material in Ariel’s regolith. This longitudinal distribution of CO _2 on Ariel was previously characterized using 13 near-infrared reflectance spectra collected at “low” sub-observer latitudes between 30°S and 30°N. Here we investigated the distribution of CO _2 ice on Ariel using 18 new spectra: 2 collected over low sub-observer latitudes, 5 collected at “mid” sub-observer latitudes (31°N–44°N), and 11 collected over “high” sub-observer latitudes (45°N–51°N). Analysis of these data indicates that CO _2 ice is primarily concentrated on Ariel’s trailing hemisphere. However, CO _2 ice band strengths are diminished in the spectra collected over mid and high sub-observer latitudes. This sub-observer latitudinal trend may result from radiolytic production of CO _2 molecules at high latitudes and subsequent migration of this constituent to low-latitude cold traps. We detected a subtle feature near 2.13 μ m in two spectra collected over high sub-observer latitudes, which might result from a “forbidden” transition mode of CO _2 ice that is substantially stronger in well-mixed substrates composed of CO _2 and H _2 O ice, consistent with regolith-mixed CO _2 ice grains formed by radiolysis. Additionally, we detected a 2.35 μ m feature in some low sub-observer latitude spectra, which might result from CO formed as part of a CO _2 radiolytic production cycle. more...

Published

2022

6. Exploring the Interior of Europa with the Europa Clipper

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Author

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

Published

2023

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

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Author

Corey J. Cochrane, Neil Murphy, Carol A. Raymond, John B. Biersteker, Katherine Dang, Xianzhe Jia, Haje Korth, Pablo Narvaez, Jodie B. Ream, and Benjamin P. Weiss

Published

2023

8. The Psyche Magnetometry Investigation

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Author

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

Published

2023

9. Neptune Odyssey: A Flagship Concept for the Exploration of the Neptune–Triton System

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Author

Abigail M. Rymer, Kirby D. Runyon, Brenda A Clyde, Jorge I. Núñez, Romina Nikoukar, Krista M. Soderlund, Kunio Sayanagi, Mark Hofstadter, Lynnae C. Quick, S. Alan Stern, Tracy Becker, Matthew Hedman, Ian Cohen, Frank Crary, Jonathan J. Fortney, Janet Vertesi, Candy Hansen, Imke de Pater, Carol S Paty, Thomas Spilker, Tom Stallard, George B. Hospodarsky, H. Todd Smith, Hannah Wakeford, Sarah E. Moran, Andrew Annex, Paul Schenk, Martin Ozimek, Juan Arrieta, Ralph L. McNutt, Jr, Adam Masters, Amy A. Simon, Susan L Ensor, Clint T. Apland, Jonathan Bruzzi, Donald Alex Patthoff, Christopher Scott, Darien Christian Esquivel Del Campo, Christopher John Krupiarz, Corey J Cochrane, Curt Gantz, Daniel Rodriguez, Daniel Patrick Gallagher, Dana Meredith Hurley, Doug Crowley, Elizabeth Abel, Elena Provornikova, Elizabeth P Turtle, George Clark, Jacob Wilkes, Jack Hunt, James H. Roberts, Jeremy Rehm, Kelvin Murray, Larry Wolfarth, Leigh N. Fletcher, Linda Spilker, Emily S. Martin, Marzia Parisi, Mike Norkus, Noam Izenberg, Robert Stough, Ron J. Vervack, Jr, Kathleen Mandt, Kevin B. Stevenson, Seth Kijewski, Weilun Cheng, Jay D Feldman, Gary Allen, Dinesh Prabhu, Soumya Dutta, Cindy Young, and Joseph Williams more...

Subjects

Lunar And Planetary Science And Exploration

Abstract

The Neptune Odyssey mission concept is a Flagship-class orbiter and atmospheric probe to the Neptune–Triton system. This bold mission of exploration would orbit an ice-giant planet to study the planet, its rings, small satellites, space environment, and the planet-sized moon Triton. Triton is a captured dwarf planet from the Kuiper Belt, twin of Pluto, and likely ocean world. Odyssey addresses Neptune system-level science, with equal priorities placed on Neptune, its rings, moons, space environment, and Triton. Between Uranus and Neptune, the latter is unique in providing simultaneous access to both an ice giant and a Kuiper Belt dwarf planet. The spacecraft—in a class equivalent to the NASA/ESA/ASI Cassini spacecraft—would launch by 2031 on a Space Launch System or equivalent launch vehicle and utilize a Jupiter gravity assist for a 12 yr cruise to Neptune and a 4 yr prime orbital mission; alternatively a launch after 2031 would have a 16 yr direct-to-Neptune cruise phase. Our solution provides annual launch opportunities and allows for an easy upgrade to the shorter (12 yr) cruise. Odyssey would orbit Neptune retrograde (prograde with respect to Triton), using the moonʼs gravity to shape the orbital tour and allow coverage of Triton, Neptune, and the space environment. The atmospheric entry probe would descend in ∼37 minutes to the 10 bar pressure level in Neptune’s atmosphere just before Odysseyʼs orbit-insertion engine burn. Odysseyʼs mission would end by conducting a Cassini-like “Grand Finale,” passing inside the rings and ultimately taking a final great plunge into Neptuneʼs atmosphere. more...

Published

2021

10. Miniature high-speed, low-pulse-energy picosecond Raman spectrometer for identification of minerals and organics in planetary science

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Author

Jordana Blacksberg, Erik Alerstam, Corey J. Cochrane, Yuki Maruyama, and Jack D. Farmer

Published

2020