Your search keyword '"Esposito, L. W"' showing total 13 results

1. Cassini UVIS Detection of Saturn's North Polar Hexagon in the Grand Finale Orbits.

Author

Pryor, W. R., Esposito, L. W., Jouchoux, A., West, R. A., Grodent, D., Gérard, J.‐C., Radioti, A., Lamy, L., and Koskinen, T.

Subjects

AURORAL electrons, SATURN'S orbit, STRATOSPHERE, ULTRAVIOLET spectrometry

Abstract

Cassini's final orbits in 2016 and 2017 provided unprecedented spatial resolution of Saturn's polar regions from near‐polar spacecraft viewing geometries. Long‐wavelength channels of Cassini's Ultraviolet Imaging Spectrograph instrument detected Saturn's UV‐dark north polar hexagon near 180 nm at planetocentric latitudes near 75°N. The dark polar hexagon is surrounded by a larger, less UV‐dark collar poleward of planetocentric latitude 65°N associated with the dark north polar region seen in ground‐based images. The hexagon is closely surrounded by the main arc of Saturn's UV aurora. The UV‐dark material was locally darkest on one occasion (23 January 2017) at the boundary of the hexagon; in most Ultraviolet Imaging Spectrograph images the dark material more uniformly fills the hexagon. The observed UV‐dark stratospheric material may be a hydrocarbon haze produced by auroral ion‐neutral chemistry at submicrobar pressure levels. Ultraviolet Imaging Spectrograph polar observations are sensitive to UV‐absorbing haze particles at pressures lower than about 10–20 mbar. Key Points: Saturn's polar hexagon is visible in Cassini UVIS dataSaturn's polar hexagon is adjacent to Saturn's auroral emissionsIt is likely that auroral ion chemistry provides a source of dark material for Saturn's polar hexagon [ABSTRACT FROM AUTHOR]

Published

2019

2. Enhanced Airglow Signature Observed at Titan in Response to its Fluctuating Magnetospheric Environment.

Author

Royer, E. M., Esposito, L. W., Crary, F., and Wahlund, J.‐E.

Subjects

*SATURN (Planet), *MAGNETOSPHERE, *SOLAR activity, *ULTRAVIOLET radiation, *IONIZATION energy

Abstract

Abstract: On rare occasions Titan has been observed in the magnetosheath, where the solar wind interferes with the regular magnetic field generated by Saturn. This particular orbital position allows for a deeper investigation of Titan's upper atmosphere response to its highly energetic magnetospheric environment. Although solar extreme ultraviolet radiation is known to be the main source of ionization in Titan's upper atmosphere, magnetospheric particle precipitation can also account for about 10% of the ionization process. We are reporting here on ultraviolet observations of Titan airglow enhancements occurring while the spacecraft and Titan are known to have been exposed to the magnetosheath environment. Using remote sensing Cassini Ultraviolet Imaging Spectrograph observations of Titan in correlation with in situ Cassini Plasma Spectrometer measurements, we present evidence of Titan's upper atmosphere response to an electron burst crossing the magnetosheath at the time of the T32 flyby, on 13 June 2007. [ABSTRACT FROM AUTHOR]

Published

2018

3. The Search for Activity on Dione and Tethys With Cassini VIMS and UVIS.

Author

Buratti, B. J., Hansen, C. J., Hendrix, A. R., Esposito, L. W., Mosher, J. A., Brown, R. H., Clark, R. N., Baines, K. H., and Nicholson, P. D.

Abstract

Abstract: During the Cassini mission the Saturnian moons Dione and Tethys showed intriguing and multiple clues suggesting residual geologic activity that might be detectable as an atmosphere, plume, or even heat signature. These clues included an atmospheric aura around Dione, injection of particles into Saturn's magnetosphere, mysterious red streaks on Tethys, and possible cryovolcanic features on Dione. A concerted effort that was strengthened in the latter stages of the mission included the acquisition of stellar occulations by the Ultraviolet Imaging Spectrograph (UVIS) of both Dione and Tethys and high solar phase observations of Dione by the Visible Infrared Mapping Spectrometer (VIMS) to detect forward scattering from grains in a plume. Analysis of these observations shows no evidence for even a low level of activity on either moon. In addition, infrared images at 2.65 μm obtained throughout the mission were scrutinized for the reappearance of an atmosphere‐like aura, with negative results. [ABSTRACT FROM AUTHOR]

Published

2018

4. Investigation of diurnal variability of water vapor in Enceladus' plume by the Cassini ultraviolet imaging spectrograph.

Author

Hansen, C. J., Esposito, L. W., Aye, K.-M., Colwell, J. E., Hendrix, A. R., Portyankina, G., and Shemansky, D.

Published

2017

5. Cassini UVIS observations of Titan ultraviolet airglow intensity dependence with solar zenith angle.

Author

Royer, E. M., Ajello, J. M., Holsclaw, G. M., West, R. A., Esposito, L. W., and Bradley, E. T.

Published

2017

6. The composition and structure of the Enceladus plume.

Author

Hansen, C. J., Shemansky, D. E., Esposito, L. W., Stewart, A. I. F., Lewis, B. R., Colwell, J. E., Hendrix, A. R., West, R. A., Waite, J. H., Teolis, B., and Magee, B. A.

Published

2011

7. Self-gravity wakes in Saturn's A ring measured by stellar occultations from Cassini.

Author

Colwell, J. E., Esposito, L. W., and Sremčević, M.

Published

2006

8. Direct observations of the comet Shoemaker-Levy 9 fragment G impact by Galileo UVS.

Author

Hord, C. W., Pryor, W. R., Stewart, A. I. F., Simmons, K. E., Gebben, J. J., Barth, C. A., McClintock, W. E., Esposito, L. W., Tobiska, W. K., West, R. A., Edberg, S. J., Ajello, J. M., and Naviaux, K. L.

Published

1995

9. The chemical composition of the dust-free Martian atmosphere: Preliminary results of a two-dimensional model.

Author

Moreau, D., Esposito, L. W., and Brasseur, G.

Published

1991

10. Voyager 2 Photopolarimeter observations of the Uranian satellites.

Author

Nelson, Robert M., Buratti, Bonnie J., Wallis, Brad D., Lane, Arthur L., West, Robert A., Simmons, Karen E., Hord, Charles W., and Esposito, L. W.

Published

1987

11. Voyager 2 photopolarimeter observations of Titan.

Author

West, R. A., Lane, A. L., Hart, H., Simmons, K. E., Hord, C. W., Coffeen, D. L., Esposito, L. W., Sato, M., and Pomphrey, R. B.

Published

1983

12. Voyager photopolarimeter stellar occultation of Saturn's rings.

Author

Esposito, L. W., O'Callaghan, M., Simmons, K. E., Hord, C. W., West, R. A., Lane, A. L., Pomphrey, R. B., Coffeen, D. L., and Sato, M.

Published

1983

13. Photometry and polarimetry of Saturn at 2640 and 7500 Å.

Author

West, R. A., Sato, M., Hart, H., Lane, A. L., Hord, C. W., Simmons, K. E., Esposito, L. W., Coffeen, D. L., and Pomphrey, R. B.

Published

1983