A combined model of pressure variations in Titan's plasma environment

In order to analyze varying plasma conditions upstream of Titan, we have combined a physical model of Saturn's plasma disk with a geometrical model of the oscillating current sheet. During modeled oscillation phases where Titan is farthest from the current sheet, the main sources of plasma pres...

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Autores principales: Achilleos, N., Arridge, C.S., Bertucci, C., Guio, P., Romanelli, N., Sergis, N.
Formato: JOUR
Materias:
magnetosphere
plasma sheet
Saturn
Titan
Magnetosphere
Planets
Plasma sheaths
Geometrical modeling
In-situ measurement
Oscillating current
Plasma environments
Plasma sheet
Pressure variations
Magnetoplasma
correlation
in situ measurement
magnetic field
plasma
pressure gradient
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00948276_v41_n24_p8730_Achilleos
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00948276_v41_n24_p8730_Achilleos
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spelling todo:paper_00948276_v41_n24_p8730_Achilleos2023-10-03T14:56:34Z A combined model of pressure variations in Titan's plasma environment Achilleos, N. Arridge, C.S. Bertucci, C. Guio, P. Romanelli, N. Sergis, N. magnetosphere plasma sheet Saturn Titan Magnetosphere Planets Plasma sheaths Geometrical modeling In-situ measurement Oscillating current Plasma environments Plasma sheet Pressure variations Saturn Titan Magnetoplasma correlation in situ measurement magnetic field magnetosphere plasma pressure gradient Saturn Titan In order to analyze varying plasma conditions upstream of Titan, we have combined a physical model of Saturn's plasma disk with a geometrical model of the oscillating current sheet. During modeled oscillation phases where Titan is farthest from the current sheet, the main sources of plasma pressure in the near-Titan space are the magnetic pressure and, for disturbed conditions, the hot plasma pressure. When Titan is at the center of the sheet, the main sources are the dynamic pressure associated with Saturn's cold, subcorotating plasma and the hot plasma pressure under disturbed conditions. Total pressure at Titan (dynamic plus thermal plus magnetic) typically increases by a factor of up to about 3 as the current sheet center is approached. The predicted incident plasma flow direction deviates from the orbital plane of Titan by ≲10°. These results suggest a correlation between the location of magnetic pressure maxima and the oscillation phase of the plasma sheet. Our model may be used to predict near-Titan conditions from "far-field" in situ measurements. Key Points Titan's plasma environment responds to global changes in hot plasma pressureTitan is exposed to highly variable upstream plasma beta and dynamic pressureIncluding hot plasma variability improves agreement between models and data ©2014. The Authors. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00948276_v41_n24_p8730_Achilleos
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic magnetosphere
plasma sheet
Saturn
Titan
Magnetosphere
Planets
Plasma sheaths
Geometrical modeling
In-situ measurement
Oscillating current
Plasma environments
Plasma sheet
Pressure variations
Saturn
Titan
Magnetoplasma
correlation
in situ measurement
magnetic field
magnetosphere
plasma
pressure gradient
Saturn
Titan
spellingShingle magnetosphere
plasma sheet
Saturn
Titan
Magnetosphere
Planets
Plasma sheaths
Geometrical modeling
In-situ measurement
Oscillating current
Plasma environments
Plasma sheet
Pressure variations
Saturn
Titan
Magnetoplasma
correlation
in situ measurement
magnetic field
magnetosphere
plasma
pressure gradient
Saturn
Titan
Achilleos, N.
Arridge, C.S.
Bertucci, C.
Guio, P.
Romanelli, N.
Sergis, N.
A combined model of pressure variations in Titan's plasma environment
topic_facet magnetosphere
plasma sheet
Saturn
Titan
Magnetosphere
Planets
Plasma sheaths
Geometrical modeling
In-situ measurement
Oscillating current
Plasma environments
Plasma sheet
Pressure variations
Saturn
Titan
Magnetoplasma
correlation
in situ measurement
magnetic field
magnetosphere
plasma
pressure gradient
Saturn
Titan
description In order to analyze varying plasma conditions upstream of Titan, we have combined a physical model of Saturn's plasma disk with a geometrical model of the oscillating current sheet. During modeled oscillation phases where Titan is farthest from the current sheet, the main sources of plasma pressure in the near-Titan space are the magnetic pressure and, for disturbed conditions, the hot plasma pressure. When Titan is at the center of the sheet, the main sources are the dynamic pressure associated with Saturn's cold, subcorotating plasma and the hot plasma pressure under disturbed conditions. Total pressure at Titan (dynamic plus thermal plus magnetic) typically increases by a factor of up to about 3 as the current sheet center is approached. The predicted incident plasma flow direction deviates from the orbital plane of Titan by ≲10°. These results suggest a correlation between the location of magnetic pressure maxima and the oscillation phase of the plasma sheet. Our model may be used to predict near-Titan conditions from "far-field" in situ measurements. Key Points Titan's plasma environment responds to global changes in hot plasma pressureTitan is exposed to highly variable upstream plasma beta and dynamic pressureIncluding hot plasma variability improves agreement between models and data ©2014. The Authors.
format JOUR
author Achilleos, N.
Arridge, C.S.
Bertucci, C.
Guio, P.
Romanelli, N.
Sergis, N.
author_facet Achilleos, N.
Arridge, C.S.
Bertucci, C.
Guio, P.
Romanelli, N.
Sergis, N.
author_sort Achilleos, N.
title A combined model of pressure variations in Titan's plasma environment
title_short A combined model of pressure variations in Titan's plasma environment
title_full A combined model of pressure variations in Titan's plasma environment
title_fullStr A combined model of pressure variations in Titan's plasma environment
title_full_unstemmed A combined model of pressure variations in Titan's plasma environment
title_sort combined model of pressure variations in titan's plasma environment
url http://hdl.handle.net/20.500.12110/paper_00948276_v41_n24_p8730_Achilleos
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