Add to ORKGWe describe a model that accounts for the complex morphology of spiral density waves raised in Saturn’s rings by the co-orbital satellites, Janus and Epimetheus. Our model may be corroborated by future Cassini observations of these time-variable wave patterns
We analyze density waves in the Cassini Division of Saturn\u27s rings revealed by multiple stellar o...
Numerous wave and gap features observed in Voyager data of Saturn's rings are produced by resonances...
International audienceWe redetermine the time-variable shape of the outer edge of Saturn's B ring us...
The rings of Saturn are the largest and most complex in the Solar System. Decades of observation fro...
The Lagrange planetary equations are used to study secular evolution of a small, eccentric satellite...
Seismology allows for direct observational constraints on the interior structures of stars and plane...
We examine the outer edge of Saturn’s A-ring, whose shape is strongly influenced by the co-orbital s...
Seismology allows for direct observational constraints on the interior structures of stars and plane...
ABSTRACT: In a previous paper (Hedman and Nicholson 2013), we developed tools which allowed us to co...
The Iapetus-1:0 nodal bending wave, the first spiral wave ever described in Saturn’s rings, has been...
Aims. We examine the linear stability of the Saturnian ring disk of mutually gravitating and physica...
International audienceWe identify several unusual one-armed density waves in Saturn's Cassini Divisi...
Abstract The present thesis investigates the dynamics of wave structures in dense planetary rings b...
We analyze density waves in the Cassini Division of Saturn\u27s rings revealed by multiple stellar o...
The mass of Saturn's A ring is reestimated using the behavior of spiral density waves embedded in th...
We analyze density waves in the Cassini Division of Saturn\u27s rings revealed by multiple stellar o...
Numerous wave and gap features observed in Voyager data of Saturn's rings are produced by resonances...
International audienceWe redetermine the time-variable shape of the outer edge of Saturn's B ring us...
The rings of Saturn are the largest and most complex in the Solar System. Decades of observation fro...
The Lagrange planetary equations are used to study secular evolution of a small, eccentric satellite...
Seismology allows for direct observational constraints on the interior structures of stars and plane...
We examine the outer edge of Saturn’s A-ring, whose shape is strongly influenced by the co-orbital s...
Seismology allows for direct observational constraints on the interior structures of stars and plane...
ABSTRACT: In a previous paper (Hedman and Nicholson 2013), we developed tools which allowed us to co...
The Iapetus-1:0 nodal bending wave, the first spiral wave ever described in Saturn’s rings, has been...
Aims. We examine the linear stability of the Saturnian ring disk of mutually gravitating and physica...
International audienceWe identify several unusual one-armed density waves in Saturn's Cassini Divisi...
Abstract The present thesis investigates the dynamics of wave structures in dense planetary rings b...
We analyze density waves in the Cassini Division of Saturn\u27s rings revealed by multiple stellar o...
The mass of Saturn's A ring is reestimated using the behavior of spiral density waves embedded in th...
We analyze density waves in the Cassini Division of Saturn\u27s rings revealed by multiple stellar o...
Numerous wave and gap features observed in Voyager data of Saturn's rings are produced by resonances...
International audienceWe redetermine the time-variable shape of the outer edge of Saturn's B ring us...