Your search keyword '"Nicholson PD"' showing total 25 results

1. Observational evidence for active dust storms on Titan at equinox

Author

Rodriguez, S, Le Mouélic, S, Barnes, JW, Kok, JF, Rafkin, SCR, Lorenz, RD, Charnay, B, Radebaugh, J, Narteau, C, Cornet, T, Bourgeois, O, Lucas, A, Rannou, P, Griffith, CA, Coustenis, A, Appéré, T, Hirtzig, M, Sotin, C, Soderblom, JM, Brown, RH, Bow, J, Vixie, G, Maltagliati, L, Courrech du Pont, S, Jaumann, R, Stephan, K, Baines, KH, Buratti, BJ, Clark, RN, and Nicholson, PD

Subjects

Meteorology & Atmospheric Sciences

Published

2018

2. The transit transmission spectrum of a cold gas giant planet

Author

Dalba, PA, Muirhead, PS, Fortney, JJ, Hedman, MM, Nicholson, PD, and Veyette, MJ

Subjects

planetary systems, planets and satellites: atmospheres, planets and satellites: individual, Astronomy & Astrophysics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

We use solar occultations observed by the Visual and Infrared Mapping Spectrometer on board the Cassini Spacecraft to extract the 1-5 μm transmission spectrum of Saturn, as if it were a transiting exoplanet. We detect absorption from methane, ethane, acetylene, aliphatic hydrocarbons, and possibly carbon monoxide, with peak-to-peak features of up to 90 parts-per-million despite the presence of ammonia clouds. We also find that atmospheric refraction, as opposed to clouds or haze, determines the minimum altitude that could be probed during mid-transit. Self-consistent exoplanet atmosphere models show good agreement with Saturn's transmission spectrum but fail to reproduce a large absorption feature near 3.4 μm, likely caused by gaseous ethane and a C-H stretching mode of an unknown aliphatic hydrocarbon. This large feature is located in one of the Spitzer Space Telescope bandpasses and could alter interpretations of transmission spectra if not properly modeled. The large signal in Saturn's transmission spectrum suggests that transmission spectroscopy of cold, long-period gaseous exoplanets should be possible with current and future observatories. Motivated by these results, we briefly consider the feasibility of using a survey to search for and characterize cold exoplanets that are analogous to Jupiter and Saturn utilizing a target-of-opportunity approach.

Published

2015

3. Wave constraints for Titan's Jingpo Lacus and Kraken Mare from VIMS specular reflection lightcurves

Author

Barnes Jw., Soderblom Jm., Brown Rh., Soderblom La., Stephan, K., Jaumann, R., Stéphane Le Mouélic, Rodriguez, S., Sotin, C., Buratti Bj., Baines Kh., Clark Rn., Nicholson Pd., Laboratoire de Planétologie et Géodynamique [UMR 6112] (LPG), Université d'Angers (UA)-Université de Nantes - UFR des Sciences et des Techniques (UN UFR ST), and Université de Nantes (UN)-Université de Nantes (UN)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDU.STU]Sciences of the Universe [physics]/Earth Sciences, ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2011

4. Dissolution origin of Ontario Lacus on Titan: evidences from geomorphological mapping, terrestrial analogs (Namibia) and laboratory experiments

Author

Cornet, T., Bourgeois, O., Le Mouélic S., Rodriguez, S., Chevrier, V., Luspay-Kuti, A., Wasiak Fc., Welivitiya Wddp., Lopez Gonzalez T., Tobie, G., Cyril Fleurant, Sotin, C., Barnes Jw., Brown Rh., Baines Kh., Buratti Bj., Clark Rn., Nicholson Pd., Laboratoire de Planétologie et Géodynamique [UMR 6112] (LPG), Université d'Angers (UA)-Université de Nantes - UFR des Sciences et des Techniques (UN UFR ST), and Université de Nantes (UN)-Université de Nantes (UN)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDU.STU]Sciences of the Universe [physics]/Earth Sciences, ComputingMethodologies_GENERAL

Abstract

Poster 630

5. Surface properties of the seas of Titan as revealed by Cassini mission bistatic radar experiments.

Author

Poggiali V, Brighi G, Hayes AG, Nicholson PD, MacKenzie S, Lalich DE, Bonnefoy LE, Oudrhiri K, Lorenz RD, Soderblom JM, Tortora P, and Zannoni M

Abstract

Saturn's moon Titan was explored by the Cassini spacecraft from 2004 to 2017. While Cassini revealed a lot about this Earth-like world, its radar observations could only provide limited information about Titan's liquid hydrocarbons seas Kraken, Ligeia and Punga Mare. Here, we show the results of the analysis of the Cassini mission bistatic radar experiments data of Titan's polar seas. The dual-polarized nature of bistatic radar observations allow independent estimates of effective relative dielectric constant and small-scale roughness of sea surface, which were not possible via monostatic radar data. We find statistically significant variations in effective dielectric constant (i.e., liquid composition), consistent with a latitudinal dependence in the methane-ethane mixing-ratio. The results on estuaries suggest lower values than the open seas, compatible with methane-rich rivers entering seas with higher ethane content. We estimate small-scale roughness of a few millimeters from the almost purely coherent scattering from the sea surface, hinting at the presence of capillary waves. This roughness is concentrated near estuaries and inter-basin straits, perhaps indicating active tidal currents., (© 2024. The Author(s).)

Published

2024

6. Close Cassini flybys of Saturn's ring moons Pan, Daphnis, Atlas, Pandora, and Epimetheus.

Author

Buratti BJ, Thomas PC, Roussos E, Howett C, Seiß M, Hendrix AR, Helfenstein P, Brown RH, Clark RN, Denk T, Filacchione G, Hoffmann H, Jones GH, Khawaja N, Kollmann P, Krupp N, Lunine J, Momary TW, Paranicas C, Postberg F, Sachse M, Spahn F, Spencer J, Srama R, Albin T, Baines KH, Ciarniello M, Economou T, Hsu HW, Kempf S, Krimigis SM, Mitchell D, Moragas-Klostermeyer G, Nicholson PD, Porco CC, Rosenberg H, Simolka J, and Soderblom LA

Abstract

Saturn's main ring system is associated with a set of small moons that either are embedded within it or interact with the rings to alter their shape and composition. Five close flybys of the moons Pan, Daphnis, Atlas, Pandora, and Epimetheus were performed between December 2016 and April 2017 during the ring-grazing orbits of the Cassini mission. Data on the moons' morphology, structure, particle environment, and composition were returned, along with images in the ultraviolet and thermal infrared. We find that the optical properties of the moons' surfaces are determined by two competing processes: contamination by a red material formed in Saturn's main ring system and accretion of bright icy particles or water vapor from volcanic plumes originating on the moon Enceladus., (Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2019

7. Close-range remote sensing of Saturn's rings during Cassini's ring-grazing orbits and Grand Finale.

Author

Tiscareno MS, Nicholson PD, Cuzzi JN, Spilker LJ, Murray CD, Hedman MM, Colwell JE, Burns JA, Brooks SM, Clark RN, Cooper NJ, Deau E, Ferrari C, Filacchione G, Jerousek RG, Le Mouélic S, Morishima R, Pilorz S, Rodriguez S, Showalter MR, Badman SV, Baker EJ, Buratti BJ, Baines KH, and Sotin C

Abstract

Saturn's rings are an accessible exemplar of an astrophysical disk, tracing the Saturn system's dynamical processes and history. We present close-range remote-sensing observations of the main rings from the Cassini spacecraft. We find detailed sculpting of the rings by embedded masses, and banded texture belts throughout the rings. Saturn-orbiting streams of material impact the F ring. There are fine-scaled correlations among optical depth, spectral properties, and temperature in the B ring, but anticorrelations within strong density waves in the A ring. There is no spectral distinction between plateaux and the rest of the C ring, whereas the region outward of the Keeler gap is spectrally distinct from nearby regions. These results likely indicate that radial stratification of particle physical properties, rather than compositional differences, is responsible for producing these ring structures., (Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2019

8. Centrally involved X-linked Charcot-Marie-Tooth disease presenting as a stroke-mimic.

Author

Nicholson PD and Pulst SM

Published

2017

9. Spectral properties of Titan's impact craters imply chemical weathering of its surface.

Author

Neish CD, Barnes JW, Sotin C, MacKenzie S, Soderblom JM, Le Mouélic S, Kirk RL, Stiles BW, Malaska MJ, Le Gall A, Brown RH, Baines KH, Buratti B, Clark RN, and Nicholson PD

Abstract

We examined the spectral properties of a selection of Titan's impact craters that represent a range of degradation states. The most degraded craters have rims and ejecta blankets with spectral characteristics that suggest that they are more enriched in water ice than the rims and ejecta blankets of the freshest craters on Titan. The progression is consistent with the chemical weathering of Titan's surface. We propose an evolutionary sequence such that Titan's craters expose an intimate mixture of water ice and organic materials, and chemical weathering by methane rainfall removes the soluble organic materials, leaving the insoluble organics and water ice behind. These observations support the idea that fluvial processes are active in Titan's equatorial regions.

Published

2015

10. An observed correlation between plume activity and tidal stresses on Enceladus.

Author

Hedman MM, Gosmeyer CM, Nicholson PD, Sotin C, Brown RH, Clark RN, Baines KH, Buratti BJ, and Showalter MR

Abstract

Saturn's moon Enceladus emits a plume of water vapour and micrometre-sized ice particles from a series of warm fissures located near its south pole. This geological activity could be powered or controlled by variations in the tidal stresses experienced by Enceladus as it moves around its slightly eccentric orbit. The specific mechanisms by which these varying stresses are converted into heat, however, are still being debated. Furthermore, it has proved difficult to find a clear correlation between the predicted tidal forces and measured temporal variations in the plume's gas content or the particle flux from individual sources. Here we report that the plume's horizontally integrated brightness is several times greater when Enceladus is near the point in its eccentric orbit where it is furthest from Saturn (apocentre) than it is when near the point of closest approach to the planet (pericentre). More material therefore seems to be escaping from beneath Enceladus' surface at times when geophysical models predict its fissures should be under tension and therefore may be wider open.

Published

2013

11. Thermal structure and dynamics of Saturn's northern springtime disturbance.

Author

Fletcher LN, Hesman BE, Irwin PG, Baines KH, Momary TW, Sanchez-Lavega A, Flasar FM, Read PL, Orton GS, Simon-Miller A, Hueso R, Bjoraker GL, Mamoutkine A, del Rio-Gaztelurrutia T, Gomez JM, Buratti B, Clark RN, Nicholson PD, and Sotin C

Abstract

Saturn's slow seasonal evolution was disrupted in 2010-2011 by the eruption of a bright storm in its northern spring hemisphere. Thermal infrared spectroscopy showed that within a month, the resulting planetary-scale disturbance had generated intense perturbations of atmospheric temperatures, winds, and composition between 20° and 50°N over an entire hemisphere (140,000 kilometers). The tropospheric storm cell produced effects that penetrated hundreds of kilometers into Saturn's stratosphere (to the 1-millibar region). Stratospheric subsidence at the edges of the disturbance produced "beacons" of infrared emission and longitudinal temperature contrasts of 16 kelvin. The disturbance substantially altered atmospheric circulation, transporting material vertically over great distances, modifying stratospheric zonal jets, exciting wave activity and turbulence, and generating a new cold anticyclonic oval in the center of the disturbance at 41°N.

Published

2011

12. An evolving view of Saturn's dynamic rings.

Author

Cuzzi JN, Burns JA, Charnoz S, Clark RN, Colwell JE, Dones L, Esposito LW, Filacchione G, French RG, Hedman MM, Kempf S, Marouf EA, Murray CD, Nicholson PD, Porco CC, Schmidt J, Showalter MR, Spilker LJ, Spitale JN, Srama R, Sremcević M, Tiscareno MS, and Weiss J

Subjects

Evolution, Planetary, Spacecraft, Water, Ice, Saturn

Abstract

We review our understanding of Saturn's rings after nearly 6 years of observations by the Cassini spacecraft. Saturn's rings are composed mostly of water ice but also contain an undetermined reddish contaminant. The rings exhibit a range of structure across many spatial scales; some of this involves the interplay of the fluid nature and the self-gravity of innumerable orbiting centimeter- to meter-sized particles, and the effects of several peripheral and embedded moonlets, but much remains unexplained. A few aspects of ring structure change on time scales as short as days. It remains unclear whether the vigorous evolutionary processes to which the rings are subject imply a much younger age than that of the solar system. Processes on view at Saturn have parallels in circumstellar disks.

Published

2010

13. Global circulation as the main source of cloud activity on Titan.

Author

Rodriguez S, Le Mouélic S, Rannou P, Tobie G, Baines KH, Barnes JW, Griffith CA, Hirtzig M, Pitman KM, Sotin C, Brown RH, Buratti BJ, Clark RN, and Nicholson PD

Abstract

Clouds on Titan result from the condensation of methane and ethane and, as on other planets, are primarily structured by circulation of the atmosphere. At present, cloud activity mainly occurs in the southern (summer) hemisphere, arising near the pole and at mid-latitudes from cumulus updrafts triggered by surface heating and/or local methane sources, and at the north (winter) pole, resulting from the subsidence and condensation of ethane-rich air into the colder troposphere. General circulation models predict that this distribution should change with the seasons on a 15-year timescale, and that clouds should develop under certain circumstances at temperate latitudes ( approximately 40 degrees ) in the winter hemisphere. The models, however, have hitherto been poorly constrained and their long-term predictions have not yet been observationally verified. Here we report that the global spatial cloud coverage on Titan is in general agreement with the models, confirming that cloud activity is mainly controlled by the global circulation. The non-detection of clouds at latitude approximately 40 degrees N and the persistence of the southern clouds while the southern summer is ending are, however, both contrary to predictions. This suggests that Titan's equator-to-pole thermal contrast is overestimated in the models and that its atmosphere responds to the seasonal forcing with a greater inertia than expected.

Published

2009

14. Complex structure within Saturn's infrared aurora.

Author

Stallard T, Miller S, Lystrup M, Achilleos N, Bunce EJ, Arridge CS, Dougherty MK, Cowley SW, Badman SV, Talboys DL, Brown RH, Baines KH, Buratti BJ, Clark RN, Sotin C, Nicholson PD, and Drossart P

Abstract

The majority of planetary aurorae are produced by electrical currents flowing between the ionosphere and the magnetosphere which accelerate energetic charged particles that hit the upper atmosphere. At Saturn, these processes collisionally excite hydrogen, causing ultraviolet emission, and ionize the hydrogen, leading to H(3)(+) infrared emission. Although the morphology of these aurorae is affected by changes in the solar wind, the source of the currents which produce them is a matter of debate. Recent models predict only weak emission away from the main auroral oval. Here we report images that show emission both poleward and equatorward of the main oval (separated by a region of low emission). The extensive polar emission is highly variable with time, and disappears when the main oval has a spiral morphology; this suggests that although the polar emission may be associated with minor increases in the dynamic pressure from the solar wind, it is not directly linked to strong magnetospheric compressions. This aurora appears to be unique to Saturn and cannot be explained using our current understanding of Saturn's magnetosphere. The equatorward arc of emission exists only on the nightside of the planet, and arises from internal magnetospheric processes that are currently unknown.

Published

2008

15. The extreme Kuiper Belt binary 2001 QW322.

Author

Petit JM, Kavelaars JJ, Gladman BJ, Margot JL, Nicholson PD, Jones RL, Parker JW, Ashby ML, Bagatin AC, Benavidez P, Coffey J, Rousselot P, Mousis O, and Taylor PA

Abstract

The study of binary Kuiper Belt objects helps to probe the dynamic conditions present during planet formation in the solar system. We report on the mutual-orbit determination of 2001 QW322, a Kuiper Belt binary with a very large separation whose properties challenge binary-formation and -evolution theories. Six years of tracking indicate that the binary's mutual-orbit period is approximately 25 to 30 years, that the orbit pole is retrograde and inclined 50 degrees to 62 degrees from the ecliptic plane, and, most surprisingly, that the mutual orbital eccentricity is <0.4. The semimajor axis of 105,000 to 135,000 kilometers is 10 times that of other near-equal-mass binaries. Because this weakly bound binary is prone to orbital disruption by interlopers, its lifetime in its present state is probably less than 1 billion years.

Published

2008

16. Exploring patient-physician communication in breast cancer care for African American women following primary treatment.

Author

Royak-Schaler R, Passmore SR, Gadalla S, Hoy MK, Zhan M, Tkaczuk K, Harper LM, Nicholson PD, and Hutchison AP

Subjects

Female, Humans, Information Dissemination, Middle Aged, Surveys and Questionnaires, Survivors, Black or African American, Breast Neoplasms therapy, Communication, Physician-Patient Relations

Abstract

Purpose/objectives: To investigate patient-physician communication from the patient's perspective about guidelines and sources of information used in developing survivorship care and preferred avenues for information delivery to African American breast cancer survivors., Design: Qualitative., Setting: Medical centers in the eastern United States., Sample: 39 African American breast cancer survivors with a mean age of 55., Methods: Each participant contributed to one of four two-hour focus group discussions and completed brief questionnaires regarding sociodemographic characteristics and cancer-specific data. Focus group topics included involvement in discussions and decision making about survivorship care, specific instructions and information that physicians provided regarding follow-up medical care and preventive health actions, concerns about recurrence and ways to prevent it, and sources of information used to develop survivorship care plans., Main Research Variables: Survivorship care, patient-provider communication, information delivery methods, and African American breast cancer survivors., Findings: Participants reported gaps in the information given to them by physicians about their diagnosis, treatments, side effects, and guidelines for follow-up care. Participants expressed strong interest in self-care practices aimed at reducing their risk of recurrence and receiving evidence-based information and guidelines from healthcare providers. The majority (about 90%) reported physician checkups and mammography screening during the prior year, whereas only 54% reported making daily efforts to improve their health and reduce their risk of recurrence. Although evidence-based guidelines are available to healthcare providers delivering follow-up care to breast cancer survivors, more than 90% of participants in the present study reported a lack of specific recommendations regarding diet or physical activity as ways to improve quality of life and health as a cancer survivor., Conclusions: The present study underscores 2006 findings from the Institute of Medicine that strategies for delivering information and guidance to cancer survivors and coordinating their care remain important issues for patients and their healthcare providers., Implications for Nursing: The present study's findings highlight the need expressed by breast cancer survivors for comprehensive guidance from healthcare providers in developing plans of care that improve patients' quality of life and target recurrence risk. Guidelines are available for dissemination and use in medical settings; however, the guidelines have not been incorporated into standard medical practice for patients with cancer. Information about long-term follow-up care after primary treatment should target the specific needs of survivors from diverse ethnic, socioeconomic, and educational backgrounds to promote understanding of surveillance to detect recurrence, long-term effects of cancer treatments, and general health maintenance.

Published

2008

17. The identification of liquid ethane in Titan's Ontario Lacus.

Author

Brown RH, Soderblom LA, Soderblom JM, Clark RN, Jaumann R, Barnes JW, Sotin C, Buratti B, Baines KH, and Nicholson PD

Abstract

Titan was once thought to have global oceans of light hydrocarbons on its surface, but after 40 close flybys of Titan by the Cassini spacecraft, it has become clear that no such oceans exist. There are, however, features similar to terrestrial lakes and seas, and widespread evidence for fluvial erosion, presumably driven by precipitation of liquid methane from Titan's dense, nitrogen-dominated atmosphere. Here we report infrared spectroscopic data, obtained by the Visual and Infrared Mapping Spectrometer (VIMS) on board the Cassini spacecraft, that strongly indicate that ethane, probably in liquid solution with methane, nitrogen and other low-molecular-mass hydrocarbons, is contained within Titan's Ontario Lacus.

Published

2008

18. Surface composition of Hyperion.

Author

Cruikshank DP, Dalton JB, Dalle Ore CM, Bauer J, Stephan K, Filacchione G, Hendrix AR, Hansen CJ, Coradini A, Cerroni P, Tosi F, Capaccioni F, Jaumann R, Buratti BJ, Clark RN, Brown RH, Nelson RM, McCord TB, Baines KH, Nicholson PD, Sotin C, Meyer AW, Bellucci G, Combes M, Bibring JP, Langevin Y, Sicardy B, Matson DL, Formisano V, Drossart P, and Mennella V

Abstract

Hyperion, Saturn's eighth largest icy satellite, is a body of irregular shape in a state of chaotic rotation. The surface is segregated into two distinct units. A spatially dominant high-albedo unit having the strong signature of H2O ice contrasts with a unit that is about a factor of four lower in albedo and is found mostly in the bottoms of cup-like craters. Here we report observations of Hyperion's surface in the ultraviolet and near-infrared spectral regions with two optical remote sensing instruments on the Cassini spacecraft at closest approach during a fly-by on 25-26 September 2005. The close fly-by afforded us the opportunity to obtain separate reflectance spectra of the high- and low-albedo surface components. The low-albedo material has spectral similarities and compositional signatures that link it with the surface of Phoebe and a hemisphere-wide superficial coating on Iapetus.

Published

2007

19. Composition and physical properties of Enceladus' surface.

Author

Brown RH, Clark RN, Buratti BJ, Cruikshank DP, Barnes JW, Mastrapa RM, Bauer J, Newman S, Momary T, Baines KH, Bellucci G, Capaccioni F, Cerroni P, Combes M, Coradini A, Drossart P, Formisano V, Jaumann R, Langevin Y, Matson DL, McCord TB, Nelson RM, Nicholson PD, Sicardy B, and Sotin C

Subjects

Ammonia analysis, Atmosphere, Carbon Dioxide analysis, Ice Cover, Spectrophotometry, Infrared, Extraterrestrial Environment chemistry, Ice analysis, Saturn

Abstract

Observations of Saturn's satellite Enceladus using Cassini's Visual and Infrared Mapping Spectrometer instrument were obtained during three flybys of Enceladus in 2005. Enceladus' surface is composed mostly of nearly pure water ice except near its south pole, where there are light organics, CO2, and amorphous and crystalline water ice, particularly in the region dubbed the "tiger stripes." An upper limit of 5 precipitable nanometers is derived for CO in the atmospheric column above Enceladus, and 2% for NH3 in global surface deposits. Upper limits of 140 kelvin (for a filled pixel) are derived for the temperatures in the tiger stripes.

Published

2006

20. A 5-micron-bright spot on Titan: evidence for surface diversity.

Author

Barnes JW, Brown RH, Turtle EP, McEwen AS, Lorenz RD, Janssen M, Schaller EL, Brown ME, Buratti BJ, Sotin C, Griffith C, Clark R, Perry J, Fussner S, Barbara J, West R, Elachi C, Bouchez AH, Roe HG, Baines KH, Bellucci G, Bibring JP, Capaccioni F, Cerroni P, Combes M, Coradini A, Cruikshank DP, Drossart P, Formisano V, Jaumann R, Langevin Y, Matson DL, McCord TB, Nicholson PD, and Sicardy B

Subjects

Atmosphere, Dry Ice, Extraterrestrial Environment, Ice, Methane, Spacecraft, Spectrum Analysis, Temperature, Water, Saturn

Abstract

Observations from the Cassini Visual and Infrared Mapping Spectrometer show an anomalously bright spot on Titan located at 80 degrees W and 20 degrees S. This area is bright in reflected light at all observed wavelengths, but is most noticeable at 5 microns. The spot is associated with a surface albedo feature identified in images taken by the Cassini Imaging Science Subsystem. We discuss various hypotheses about the source of the spot, reaching the conclusion that the spot is probably due to variation in surface composition, perhaps associated with recent geophysical phenomena.

Published

2005

21. Release of volatiles from a possible cryovolcano from near-infrared imaging of Titan.

Author

Sotin C, Jaumann R, Buratti BJ, Brown RH, Clark RN, Soderblom LA, Baines KH, Bellucci G, Bibring JP, Capaccioni F, Cerroni P, Combes M, Coradini A, Cruikshank DP, Drossart P, Formisano V, Langevin Y, Matson DL, McCord TB, Nelson RM, Nicholson PD, Sicardy B, LeMouelic S, Rodriguez S, Stephan K, and Scholz CK

Subjects

Atmosphere chemistry, Gases chemistry, Geography, Hydrocarbons analysis, Hydrocarbons chemistry, Methane analysis, Methane chemistry, Spacecraft, Extraterrestrial Environment chemistry, Gases analysis, Ice analysis, Infrared Rays, Moon, Photography, Saturn

Abstract

Titan is the only satellite in our Solar System with a dense atmosphere. The surface pressure is 1.5 bar (ref. 1) and, similar to the Earth, N2 is the main component of the atmosphere. Methane is the second most important component, but it is photodissociated on a timescale of 10(7) years (ref. 3). This short timescale has led to the suggestion that Titan may possess a surface or subsurface reservoir of hydrocarbons to replenish the atmosphere. Here we report near-infrared images of Titan obtained on 26 October 2004 by the Cassini spacecraft. The images show that a widespread methane ocean does not exist; subtle albedo variations instead suggest topographical variations, as would be expected for a more solid (perhaps icy) surface. We also find a circular structure approximately 30 km in diameter that does not resemble any features seen on other icy satellites. We propose that the structure is a dome formed by upwelling icy plumes that release methane into Titan's atmosphere.

Published

2005

22. Compositional maps of Saturn's moon Phoebe from imaging spectroscopy.

Author

Clark RN, Brown RH, Jaumann R, Cruikshank DP, Nelson RM, Buratti BJ, McCord TB, Lunine J, Baines KH, Bellucci G, Bibring JP, Capaccioni F, Cerroni P, Coradini A, Formisano V, Langevin Y, Matson DL, Mennella V, Nicholson PD, Sicardy B, Sotin C, Hoefen TM, Curchin JM, Hansen G, Hibbits K, and Matz KD

Abstract

The origin of Phoebe, which is the outermost large satellite of Saturn, is of particular interest because its inclined, retrograde orbit suggests that it was gravitationally captured by Saturn, having accreted outside the region of the solar nebula in which Saturn formed. By contrast, Saturn's regular satellites (with prograde, low-inclination, circular orbits) probably accreted within the sub-nebula in which Saturn itself formed. Here we report imaging spectroscopy of Phoebe resulting from the Cassini-Huygens spacecraft encounter on 11 June 2004. We mapped ferrous-iron-bearing minerals, bound water, trapped CO2, probable phyllosilicates, organics, nitriles and cyanide compounds. Detection of these compounds on Phoebe makes it one of the most compositionally diverse objects yet observed in our Solar System. It is likely that Phoebe's surface contains primitive materials from the outer Solar System, indicating a surface of cometary origin.

Published

2005

23. Discovery of five irregular moons of Neptune.

Author

Holman MJ, Kavelaars JJ, Grav T, Gladman BJ, Fraser WC, Milisavljevic D, Nicholson PD, Burns JA, Carruba V, Petit JM, Rousselot P, Mousis O, Marsden BG, and Jacobson RA

Abstract

Each giant planet of the Solar System has two main types of moons. 'Regular' moons are typically larger satellites with prograde, nearly circular orbits in the equatorial plane of their host planets at distances of several to tens of planetary radii. The 'irregular' satellites (which are typically smaller) have larger orbits with significant eccentricities and inclinations. Despite these common features, Neptune's irregular satellite system, hitherto thought to consist of Triton and Nereid, has appeared unusual. Triton is as large as Pluto and is postulated to have been captured from heliocentric orbit; it traces a circular but retrograde orbit at 14 planetary radii from Neptune. Nereid, which exhibits one of the largest satellite eccentricities, is believed to have been scattered from a regular satellite orbit to its present orbit during Triton's capture. Here we report the discovery of five irregular moons of Neptune, two with prograde and three with retrograde orbits. These exceedingly faint (apparent red magnitude m(R) = 24.2-25.4) moons, with diameters of 30 to 50 km, were presumably captured by Neptune.

Published

2004

24. Discovery of 12 satellites of Saturn exhibiting orbital clustering.

Author

Gladman B, Kavelaars JJ, Holman M, Nicholson PD, Burns JA, Hergenrother CW, Petit JM, Marsden BG, Jacobson R, Gray W, and Grav T

Abstract

The giant planets in the Solar System each have two groups of satellites. The regular satellites move along nearly circular orbits in the planet's orbital plane, revolving about it in the same sense as the planet spins. In contrast, the so-called irregular satellites are generally smaller in size and are characterized by large orbits with significant eccentricity, inclination or both. The differences in their characteristics suggest that the regular and irregular satellites formed by different mechanisms: the regular satellites are believed to have formed in an accretion disk around the planet, like a miniature Solar System, whereas the irregulars are generally thought to be captured planetesimals. Here we report the discovery of 12 irregular satellites of Saturn, along with the determinations of their orbits. These orbits, along with the orbits of irregular satellites of Jupiter and Uranus, fall into groups on the basis of their orbital inclinations. We interpret this result as indicating that most of the irregular moons are collisional remnants of larger satellites that were fragmented after capture, rather than being captured independently.

Published

2001

25. The formation of Jupiter's faint rings

Author

Burns JA, Showalter MR, Hamilton DP, Nicholson PD, de Pater I, Ockert-Bell ME, and Thomas PC

Abstract

Observations by the Galileo spacecraft and the Keck telescope showed that Jupiter's outermost (gossamer) ring is actually two rings circumscribed by the orbits of the small satellites Amalthea and Thebe. The gossamer rings' unique morphology-especially the rectangular end profiles at the satellite's orbit and the enhanced intensities along the top and bottom edges of the rings-can be explained by collisional ejecta lost from the inclined satellites. The ejecta evolves inward under Poynting-Robertson drag. This mechanism may also explain the origin of Jupiter's main ring and suggests that faint rings may accompany all small inner satellites of the other jovian planets.

Published

1999