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1. An in situ comparison of electron acceleration at collisionless shocks under differing upstream magnetic field orientations

Author

Masters, A., Sulaiman, A. H., Stawarz, Ł., Reville, B., Sergis, N., Fujimoto, M., Burgess, D., Coates, A. J., and Dougherty, M. K.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

A leading explanation for the origin of Galactic cosmic rays is acceleration at high-Mach number shock waves in the collisionless plasma surrounding young supernova remnants. Evidence for this is provided by multi-wavelength non-thermal emission thought to be associated with ultrarelativistic electrons at these shocks. However, the dependence of the electron acceleration process on the orientation of the upstream magnetic field with respect to the local normal to the shock front (quasi-parallel/quasi-perpendicular) is debated. Cassini spacecraft observations at Saturn's bow shock has revealed examples of electron acceleration under quasi-perpendicular conditions, and the first in situ evidence of electron acceleration at a quasi-parallel shock. Here we use Cassini data to make the first comparison between energy spectra of locally accelerated electrons under these differing upstream magnetic field regimes. We present data taken during a quasi-perpendicular shock crossing on 2008 March 8 and during a quasi-parallel shock crossing on 2007 February 3, highlighting that both were associated with electron acceleration to at least MeV energies. The magnetic signature of the quasi-perpendicular crossing has a relatively sharp upstream-downstream transition, and energetic electrons were detected close to the transition and immediately downstream. The magnetic transition at the quasi-parallel crossing is less clear, energetic electrons were encountered upstream and downstream, and the electron energy spectrum is harder above ~100 keV. We discuss whether the acceleration is consistent with diffusive shock acceleration theory in each case, and suggest that the quasi-parallel spectral break is due to an energy-dependent interaction between the electrons and short, large-amplitude magnetic structures., Comment: 23 pages, 4 figures. Accepted for publication in ApJ

Published
2017
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2. Corotating Magnetic Reconnection Site in Saturn's Magnetosphere

Author

Yao, Zhonghua, Coates, A. J., Ray, L. C., Rae, I. J., Grodent, D., Jones, G. H., Dougherty, M. K., Owen, C. J., Guo, R. L., Dunn, W., Radioti, A., Pu, Z. Y., Lewis, G. R., Waite, J. H., and Gerard, J. -C.

Subjects
Physics - Space Physics
Abstract

Using measurements from the Cassini spacecraft in Saturn's magnetosphere, we propose a 3D physical picture of a corotating reconnection site, which can only be driven by an internally generated source. Our results demonstrate that the corotating magnetic reconnection can drive an expansion of the current sheet in Saturn's magnetosphere and, consequently, can produce Fermi acceleration of electrons. This reconnection site lasted for longer than one of Saturn's rotation period. The long-lasting and corotating natures of the magnetic reconnection site at Saturn suggest fundamentally different roles of magnetic reconnection in driving magnetospheric dynamics (e.g., the auroral precipitation) from the Earth. Our corotating reconnection picture could also potentially shed light on the fast rotating magnetized plasma environments in the solar system and beyond., Comment: 7 pages, 5 figures

Published
2017
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3. Nature of the MHD and kinetic scale turbulence in the magnetosheath of Saturn: Cassini observations

Author

Hadid, L. Z., Sahraoui, F., Kiyani, K. H., Retinò, A., Modolo, R., Canu, P., Masters, A., and Dougherty, M. K.

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

Low frequency turbulence in Saturn's magnetosheath is investigated using in-situ measurements of the Cassini spacecraft. Focus is put on the magnetic energy spectra computed in the frequency range $\sim[10^{-4}, 1]$Hz. A set of 42 time intervals in the magnetosheath were analyzed and three main results that contrast with known features of solar wind turbulence are reported: 1) The magnetic energy spectra showed a $\sim f^{-1}$ scaling at MHD scales followed by an $\sim f^{-2.6}$ scaling at the sub-ion scales without forming the so-called inertial range; 2) The magnetic compressibility and the cross-correlation between the parallel component of the magnetic field and density fluctuations $ C(\delta n,\delta B_{||}) $ indicates the dominance of the compressible magnetosonic slow-like modes at MHD scales rather than the Alfv\'en mode; 3) Higher order statistics revealed a monofractal (resp. multifractal) behaviour of the turbulent flow downstream of a quasi-perpendicular (resp. quasi-parallel) shock at the sub-ion scales. Implications of these results on theoretical modeling of space plasma turbulence are discussed.

Published
2016
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4. Suprathermal electrons at Saturn's bow shock

Author

Masters, A., Sulaiman, A. H., Sergis, N., Stawarz, L., Fujimoto, M., Coates, A. J., and Dougherty, M. K.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Earth and Planetary Astrophysics, Physics - Space Physics
Abstract

The leading explanation for the origin of galactic cosmic rays is particle acceleration at the shocks surrounding young supernova remnants (SNRs), although crucial aspects of the acceleration process are unclear. The similar collisionless plasma shocks frequently encountered by spacecraft in the solar wind are generally far weaker (lower Mach number) than these SNR shocks. However, the Cassini spacecraft has shown that the shock standing in the solar wind sunward of Saturn (Saturn's bow shock) can occasionally reach this high-Mach number astrophysical regime. In this regime Cassini has provided the first in situ evidence for electron acceleration under quasi-parallel upstream magnetic conditions. Here we present the full picture of suprathermal electrons at Saturn's bow shock revealed by Cassini. The downstream thermal electron distribution is resolved in all data taken by the low-energy electron detector (CAPS-ELS, <28 keV) during shock crossings, but the higher energy channels were at (or close to) background. The high-energy electron detector (MIMI-LEMMS, >18 keV) measured a suprathermal electron signature at 31 of 508 crossings, where typically only the lowest energy channels (<100 keV) were above background. We show that these results are consistent with theory in which the "injection" of thermal electrons into an acceleration process involves interaction with whistler waves at the shock front, and becomes possible for all upstream magnetic field orientations at high Mach numbers like those of the strong shocks around young SNRs. A future dedicated study will analyze the rare crossings with evidence for relativistic electrons (up to ~1 MeV)., Comment: 22 pages, 5 figures. Accepted for publication in ApJ

Published
2016
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5. Characterization of Saturn's bow shock: Magnetic field observations of quasi-perpendicular shocks

Author

Sulaiman, A. H., Masters, A., and Dougherty, M. K.

Subjects
Physics - Space Physics
Abstract

Collisionless shocks vary drastically from terrestrial to astrophysical regimes resulting in radically different characteristics. This poses two complexities. Firstly, separating the influences of these parameters on physical mechanisms such as energy dissipation. Secondly, correlating observations of shock waves over a wide range of each parameter, enough to span across different regimes. Investigating the latter has been restricted since the majority of studies on shocks at exotic regimes (such as supernova remnants) have been achieved either remotely or via simulations, but rarely by means of in-situ observations. Here we present the parameter space of MA bow shock crossings from 2004-2014 as observed by the Cassini spacecraft. We find that Saturn's bow shock exhibits characteristics akin to both terrestrial and astrophysical regimes (MA of order 100), which is principally controlled by the upstream magnetic field strength. Moreover, we determined the {\theta}Bn of each crossing to show that Saturn's (dayside) bow shock is predominantly quasi-perpendicular by virtue of the Parker spiral at 10 AU. Our results suggest a strong dependence on MA in controlling the onset of physical mechanisms in collisionless shocks, particularly non-time stationarity and variability. We anticipate our comprehensive assessment will yield deeper insight into high MA collisionless shocks and provide a broader scope for understanding the structures and mechanisms of collisionless shocks., Comment: Accepted in Journal of Geophysical Research: Space Physics

Published
2016
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6. Cassini observations of Saturn's southern polar cusp

Author

Arridge, C. S., Jasinski, J. M., Achilleos, N., Bogdanova, Y. V., Bunce, E. J., Cowley, S. W. H., Fazakerley, A. N., Khurana, K. K., Lamy, L., Leisner, J. S., Roussos, E., Russell, C. T., Zarka, P., Coates, A. J., Dougherty, M. K., Jones, G. H., Krimigis, S. M., and Krupp, N.

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

The magnetospheric cusps are important sites of the coupling of a magnetosphere with the solar wind. The combination of both ground- and space-based observations at Earth have enabled considerable progress to be made in understanding the terrestrial cusp and its role in the coupling of the magnetosphere to the solar wind via the polar magnetosphere. Voyager 2 fully explored Neptune's cusp in 1989 but highly inclined orbits of the Cassini spacecraft at Saturn present the most recent opportunity to repeatedly studying the polar magnetosphere of a rapidly rotating planet. In this paper we discuss observations made by Cassini during two passes through Saturn's southern polar magnetosphere. Our main findings are that i) Cassini directly encounters the southern polar cusp with evidence for the entry of magnetosheath plasma into the cusp via magnetopause reconnection, ii) magnetopause reconnection and entry of plasma into the cusp can occur over a range of solar wind conditions, and iii) double cusp morphologies are consistent with the position of the cusp oscillating in phase with Saturn's global magnetospheric periodicities., Comment: Journal accepted version before copy-editing: 55 pages, 12 figures. Accepted for publication in J. Geophys. Res. Space Physics

Published
2016
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7. Quasiperpendicular high Mach number Shocks

Author

Sulaiman, A. H., Masters, A., Dougherty, M. K., Burgess, D., Fujimoto, M., and Hospodarsky, G. B.

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

Shock waves exist throughout the universe and are fundamental to understanding the nature of collisionless plasmas. Reformation is a process, driven by microphysics, which typically occurs at high Mach number supercritical shocks. While ongoing studies have investigated this process extensively both theoretically and via simulations, their observations remain few and far between. In this letter we present a study of very high Mach number shocks in a parameter space that has been poorly explored and we identify reformation using in situ magnetic field observations from the Cassini spacecraft at 10 AU. This has given us an insight into quasi-perpendicular shocks across two orders of magnitude in Alfven Mach number (MA) which could potentially bridge the gap between modest terrestrial shocks and more exotic astrophysical shocks. For the first time, we show evidence for cyclic reformation controlled by specular ion reflection occurring at the predicted timescale of ~0.3 {\tau}c, where {\tau}c is the ion gyroperiod. In addition, we experimentally reveal the relationship between reformation and MA and focus on the magnetic structure of such shocks to further show that for the same MA, a reforming shock exhibits stronger magnetic field amplification than a shock that is not reforming., Comment: Accepted and Published in Physical Review Letters (2015)

Published
2015
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8. The magnetic structure of Saturn's magnetosheath

Author

Sulaiman, A. H., Masters, A., Dougherty, M. K., and Jia, X.

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

A planet's magnetosheath extends from downstream of its bow shock up to the magnetopause where the solar wind flow is deflected around the magnetosphere and the solar wind embedded magnetic field lines are draped. This makes the region an important site for plasma turbulence, instabilities, reconnection and plasma depletion layers. A relatively high Alfv\'en Mach number solar wind and a polar-flattened magnetosphere make the magnetosheath of Saturn both physically and geometrically distinct from the Earth's. The polar flattening is predicted to affect the magnetosheath magnetic field structure and thus the solar wind-magnetosphere interaction. Here we investigate the magnetic field in the magnetosheath with the expectation that polar flattening is manifested in the overall draping pattern. We compare an accumulation of Cassini data between 2004 and 2010 with global magnetohydrodynamic (MHD) simulations and an analytical model representative of a draped field between axisymmetric boundaries. The draping patterns measured are well captured and in broad agreement for given upstream conditions with those of the MHD simulations (which include polar flattening). The deviations from the analytical model, based on no polar flattening, suggest that non-axisymmetry is invariably a key feature of the magnetosphere's global structure. Our results show a comprehensive overview of the configuration of the magnetic field in a non-axisymmetric magnetosheath as revealed by Cassini. We anticipate our assessment to provide an insight to this barely studied interface between a high Alfv\'enic bow shock and a dynamic magnetosphere.

Published
2015
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9. Titan interaction with the supersonic solar wind

Author

Bertucci, C., Hamilton, D. C., Kurth, W. S., Hospodarsky, G., Mitchell, D., Sergis, N., Edberg, N. J. T., and Dougherty, M. K.

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

After 9 years in the Saturn system, the Cassini spacecraft finally observed Titan in the supersonic solar wind. These unique observations reveal that Titan interaction with the solar wind is in many ways similar to un-magnetized planets Mars and Venus in spite of the differences in the properties of the solar plasma in the outer solar system. In particular, Cassini detected a collisionless, supercritical bow shock and a well-defined induced magnetosphere filled with mass-loaded interplanetary magnetic field lines, which drape around Titan ionosphere. Although the flyby altitude may not allow the detection of an ionopause, Cassini reports enhancements of plasma density compatible with plasma clouds or streamers in the flanks of its induced magnetosphere or due to an expansion of the induced magnetosphere. Because of the upstream conditions, these observations are also relevant for unmagnetized bodies in the outer solar system such as Pluto, where kinetic processes are expected to dominate., Comment: 17 pages, 3 figures

Published
2014
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10. Electron acceleration to relativistic energies at a strong quasi-parallel shock wave

Author

Masters, A., Stawarz, L., Fujimoto, M., Schwartz, S. J., Sergis, N., Thomsen, M. F., Retinò, A., Hasegawa, H., Lewis, G. R., Coates, A. J., Canu, P., and Dougherty, M. K.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Physics - Plasma Physics, Physics - Space Physics
Abstract

Electrons can be accelerated to ultrarelativistic energies at strong (high-Mach number) collisionless shock waves that form when stellar debris rapidly expands after a supernova. Collisionless shock waves also form in the flow of particles from the Sun (the solar wind), and extensive spacecraft observations have established that electron acceleration at these shocks is effectively absent whenever the upstream magnetic field is roughly parallel to the shock surface normal (quasi-parallel conditions). However, it is unclear whether this magnetic dependence of electron acceleration also applies to the far stronger shocks around young supernova remnants, where local magnetic conditions are poorly understood. Here we present Cassini spacecraft observations of an unusually strong solar system shock wave (Saturn's bow shock) where significant local electron acceleration has been confirmed under quasi-parallel magnetic conditions for the first time, contradicting the established magnetic dependence of electron acceleration at solar system shocks. Furthermore, the acceleration led to electrons at relativistic energies (~MeV), comparable to the highest energies ever attributed to shock-acceleration in the solar wind. These observations demonstrate that at high-Mach numbers, like those of young supernova remnant shocks, quasi-parallel shocks become considerably more effective electron accelerators., Comment: 16 pages, 4 figures, accepted for publication in Nature Physics. Following journal guidelines, this is the submitted version (the accepted version will be uploaded 6 months after publication)

Published
2013
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11. Properties of Saturn Kilometric Radiation measured within its source region

Author

Lamy, L., Schippers, P., Zarka, P., Cecconi, B., Arridge, C., Dougherty, M. K., Louarn, P., Andre, N., Kurth, W. S., Mutel, R. L., Gurnett, D. A., and Coates, A. J.

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

On 17 October 2008, the Cassini spacecraft crossed the southern sources of Saturn kilometric radiation (SKR), while flying along high-latitude nightside magnetic field lines. In situ measurements allowed us to characterize for the first time the source region of an extra-terrestrial auroral radio emission. Using radio, magnetic field and particle observations, we show that SKR sources are surrounded by a hot tenuous plasma, in a region of upward field-aligned currents. Magnetic field lines supporting radio sources map a continuous, high-latitude and spiral-shaped auroral oval observed on the dawnside, consistent with enhanced auroral activity. Investigating the Cyclotron Maser Instability (CMI) as a mechanism responsible for SKR generation, we find that observed cutoff frequencies are consistent with radio waves amplified perpendicular to the magnetic field by hot (6 to 9 keV) resonant electrons, measured locally.

Published
2011
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14. Cassini Measurements of Cold Plasma in the Ionosphere of Titan

Author

Boström, R., Gustafsson, G., Gurnett, D. A., Kurth, W. S., Pedersen, A., Averkamp, T. F., Hospodarsky, G. B., Persoon, A. M., Canu, P., Neubauer, F. M., Dougherty, M. K., Eriksson, A. I., Morooka, M. W., Gill, R., André, M., Eliasson, L., and Müller-Wodarg, I.

Published
2005

15. Cassini Magnetometer Observations during Saturn Orbit Insertion

Author

Dougherty, M. K., Achilleos, N., Andre, N., Arridge, C. S., Balogh, A., Bertucci, C., Burton, M. E., Cowley, S. W. H., Erdos, G., Giampieri, G., Khurana, K. K., Leisner, J., Neubauer, F. M., Russell, C. T., Smith, E. J., Southwood, D. J., and Tsurutani, B. T.

Published
2005

18. The Ring Current of Saturn

Author

Sergis, N., primary, Bunce, E. J., additional, Carbary, J. F., additional, Cowley, S. W. H., additional, Jia, X., additional, Hamilton, D. C., additional, Krimigis, S. M., additional, Mitchell, D. G., additional, and Dougherty, M. K., additional

Published
2018
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21. A Persistent, Large-Scale, and Ordered Electrodynamic Connection Between Saturn and Its Main Rings

Author

Sulaiman, A. H, Farrell, W. M, Ye, S.-Y, Kurth, W. S, Gurnett, D. A, Hospodarsky, G. B, Menietti, J. D, Pisa, D, Agiwal, O, and Dougherty, M. K

Subjects
Astrophysics
Abstract

Auroral hiss emissions are ubiquitous in planetary magnetospheres, particularly in regions where electric current systems are present. They are generally diagnostic of electrodynamic coupling between conductive bodies, thus making auroral and moon-connected magnetic field lines prime locations for their detection. However, the role of Saturn's rings as a dynamic conductive body has been elusive and of great interest to the community. Cassini's Grand Finale orbits afforded a unique opportunity to directly sample magnetic field lines connected to the main rings. Here we provide strong evidence for the persistent and organized presence of auroral hiss demonstrably associated with the main rings. This is in contrast to recent observations suggesting that Saturn's rings may be barriers to field-aligned currents. Our results provide a new view of Saturn's rings as a dynamic system that is in continuous and ordered electrodynamic coupling with the planet.

Published
2019
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24. The Cassini Magnetic Field Investigation

Author

Dougherty, M. K., Kellock, S., Southwood, D. J., Balogh, A., Smith, E. J., Tsurutani, B. T., Gerlach, B., Glassmeier, K.-H., Gleim, F., Russell, C. T., Erdos, G., Neubauer, F. M., Cowley, S. W. H., and Russell, Christopher T., editor

Published
2004
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25. Magnetospheric and Plasma Science with Cassini-Huygens

Author

Blanc, M., Bolton, S., Bradley, J., Burton, M., Cravens, T. E., Dandouras, I., Dougherty, M. K., Festou, M. C., Feynman, J., Johnson, R. E., Gombosi, T. G., Kurth, W. S., Liewer, P. C., Mauk, B. H., Maurice, S., Mitchell, D., Neubauer, F. M., Richardson, J. D., Shemansky, D. E., Sittler, E. C., Tsurutani, B. T., Zarka, Ph., Esposito, L. W., Grün, E., Gurnett, D. A., Kliore, A. J., Krimigis, S. M., Southwood, D., Waite, J. H., Young, D. T., and Russell, Christopher T., editor

Published
2003
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26. Conductivities of Titan's Dusty Ionosphere

Author

Shebanits, Oleg, Wahlund, Jan-Erik, Waite, J. H., Dougherty, M. K., Shebanits, Oleg, Wahlund, Jan-Erik, Waite, J. H., and Dougherty, M. K.

Abstract

Titan's ionosphere hosts a globally distributed non-trivial dusty ion-ion plasma, providing an environment for studies of dusty ionospheres that is in many aspects unique in our solar system. Thanks to the Cassini mission, Titan's ionosphere also features one of the largest dusty plasma data sets from 126 flybys of the moon over 13 years, from 2004 to 2017. Recent studies have shown that negatively charged dust dramatically alters the electric properties of plasmas, in particular planetary ionospheres. Utilizing the full plasma content of the moon's ionosphere (electrons, positive ions, and negative ions/dust grains), we derive the electric conductivities and define the conductive dynamo region. Our results show that using the full plasma content increases the Pedersen conductivities at similar to 1,100-1,200 km altitude by up to 35% compared to the estimates using only electron densities. The Hall conductivities are in general not affected but several cases indicate a reverse Hall effect at similar to 900 km altitude (closest approach) and below. The dayside conductivities are shown to be factor similar to 7-9 larger than on the nightside, owing to higher dayside plasma densities.

Published
2022
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28. The Dust Halo of Saturn's Largest Icy Moon, Rhea

Author

Jones, G. H., Roussos, E., Krupp, N., Beckmann, U., Coates, A. J., Crary, F., Dandouras, I., Dikarev, V., Dougherty, M. K., Garnier, P., Hansen, C. J., Hendrix, A. R., Hospodarsky, G. B., Johnson, R. E., Kempf, S., Khurana, K. K., Krimigis, S. M., Krüger, H., Kurth, W. S., Lagg, A., McAndrews, H. J., Mitchell, D. G., Paranicas, C., Postberg, F., Russell, C. T., Saur, J., Seiß, M., Spahn, F., Srama, R., Strobel, D. F., Tokar, R., Wahlund, J.-E., Wilson, R. J., Woch, J., and Young, D.

Published
2008
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31. A Rotating Azimuthally Distributed Auroral Current System on Saturn Revealed by the Cassini Spacecraft

Author

Guo, R. L., primary, Yao, Z. H., additional, Dunn, W. R., additional, Palmaerts, B., additional, Sergis, N., additional, Grodent, D., additional, Badman, S. V., additional, Ye, S. Y., additional, Pu, Z. Y., additional, Mitchell, D. G., additional, Zhang, B. Z., additional, Achilleos, N., additional, Coates, A. J., additional, Wei, Y., additional, Waite, J. H., additional, Krupp, N., additional, and Dougherty, M. K., additional

Published
2021
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35. TandEM: Titan and Enceladus mission

Author

Coustenis, A., Atreya, S. K., Balint, T., Brown, R. H., Dougherty, M. K., Ferri, F., Fulchignoni, M., Gautier, D., Gowen, R. A., Griffith, C. A., Gurvits, L. I., Jaumann, R., Langevin, Y., Leese, M. R., Lunine, J. I., McKay, C. P., Moussas, X., Müller-Wodarg, I., Neubauer, F., Owen, T. C., Raulin, F., Sittler, E. C., Sohl, F., Sotin, C., Tobie, G., Tokano, T., Turtle, E. P., Wahlund, J.-E., Waite, J. H., Baines, K. H., Blamont, J., Coates, A. J., Dandouras, I., Krimigis, T., Lellouch, E., Lorenz, R. D., Morse, A., Porco, C. C., Hirtzig, M., Saur, J., Spilker, T., Zarnecki, J. C., Choi, E., Achilleos, N., Amils, R., Annan, P., Atkinson, D. H., Bénilan, Y., Bertucci, C., Bézard, B., Bjoraker, G. L., Blanc, M., Boireau, L., Bouman, J., Cabane, M., Capria, M. T., Chassefière, E., Coll, P., Combes, M., Cooper, J. F., Coradini, A., Crary, F., Cravens, T., Daglis, I. A., de Angelis, E., de Bergh, C., de Pater, I., Dunford, C., Durry, G., Dutuit, O., Fairbrother, D., Flasar, F. M., Fortes, A. D., Frampton, R., Fujimoto, M., Galand, M., Grasset, O., Grott, M., Haltigin, T., Herique, A., Hersant, F., Hussmann, H., Ip, W., Johnson, R., Kallio, E., Kempf, S., Knapmeyer, M., Kofman, W., Koop, R., Kostiuk, T., Krupp, N., Küppers, M., Lammer, H., Lara, L.-M., Lavvas, P., Le Mouélic, S., Lebonnois, S., Ledvina, S., Li, J., Livengood, T. A., Lopes, R. M., Lopez-Moreno, J.-J., Luz, D., Mahaffy, P. R., Mall, U., Martinez-Frias, J., Marty, B., McCord, T., Menor Salvan, C., Milillo, A., Mitchell, D. G., Modolo, R., Mousis, O., Nakamura, M., Neish, C. D., Nixon, C. A., Nna Mvondo, D., Orton, G., Paetzold, M., Pitman, J., Pogrebenko, S., Pollard, W., Prieto-Ballesteros, O., Rannou, P., Reh, K., Richter, L., Robb, F. T., Rodrigo, R., Rodriguez, S., Romani, P., Ruiz Bermejo, M., Sarris, E. T., Schenk, P., Schmitt, B., Schmitz, N., Schulze-Makuch, D., Schwingenschuh, K., Selig, A., Sicardy, B., Soderblom, L., Spilker, L. J., Stam, D., Steele, A., Stephan, K., Strobel, D. F., Szego, K., Szopa, C., Thissen, R., Tomasko, M. G., Toublanc, D., Vali, H., Vardavas, I., Vuitton, V., West, R. A., Yelle, R., and Young, E. F.

Published
2009
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37. Anti-planetward auroral electron beams at Saturn

Author

Saur, J., Mauk, B. H., Mitchell, D. G., Krupp, N., Khurana, K. K., Livi, S., Krimigis, S. M., Newell, P. T., Williams, D. J., Brandt, P. C., Lagg, A., Roussos, E., and Dougherty, M. K.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): J. Saur (corresponding author) [1, 5]; B. H. Mauk [1]; D. G. Mitchell [1]; N. Krupp [2]; K. K. Khurana [3]; S. Livi [1]; S. M. Krimigis [1]; P. [...]

Published
2006
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40. An Earth-like correspondence between Saturn's auroral features and radio emission

Author

Kurth, W. S., Gurnett, D. A., Clarke, J. T., Zarka, P., Desch, M. D., Kaiser, M. L., Cecconi, B., Lecacheux, A., Farrell, W. M., Galopeau, P., Gerard, J.-C., Grodent, D., Prange, R., Dougherty, M. K., and Crary, F. J.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): W. S. Kurth (corresponding author) [1]; D. A. Gurnett [1]; J. T. Clarke [2]; P. Zarka [3]; M. D. Desch [4]; M. L. Kaiser [4]; B. Cecconi [1]; A. [...]

Published
2005
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42. The dusk flank of Jupiter's magnetosphere

Author

Kurth, W. S., Gurnett, D. A., Hospodarsky, G. B., Farrell, W. M., Roux, A., Dougherty, M. K., Joy, S. P., Kivelson, M. G., Walker, R. J., Crary, F. J., and Alexander, C. J.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): W. S. Kurth (corresponding author) [1]; D. A. Gurnett [1]; G. B. Hospodarsky [1]; W. M. Farrell [2]; A. Roux [3]; M. K. Dougherty [4]; S. P. Joy [5]; [...]

Published
2002
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43. A pulsating auroral X-ray hot spot on Jupiter

Author

Gladstone, G. R., Waite, Jr, J. H., Grodent, D., Lewis, W. S., Crary, F. J., Elsner, R. F., Weisskopf, M. C., Majeed, T., Jahn, J.-M., Bhardwaj, A., Clarke, J. T., Young, D. T., Dougherty, M. K., Espinosa, S. A., and Cravens, T. E.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): G. R. Gladstone (corresponding author) [1]; J. H. Waite, Jr [2]; D. Grodent [2]; W. S. Lewis [1]; F. J. Crary [2]; R. F. Elsner [3]; M. C. Weisskopf [...]

Published
2002
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44. Saturn's Nightside Dynamics During Cassini's F Ring and Proximal Orbits: Response to Solar Wind and Planetary Period Oscillation Modulations

Author

Bradley, T. J., primary, Cowley, S. W. H., additional, Bunce, E. J., additional, Melin, H., additional, Provan, G., additional, Nichols, J. D., additional, Dougherty, M. K., additional, Roussos, E., additional, Krupp, N., additional, Tao, C., additional, Lamy, L., additional, Pryor, W. R., additional, and Hunt, G. J., additional

Published
2020
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