Planetary period oscillations in Saturn's magnetosphere: Phase relation of equatorial magnetic field oscillations and Saturn kilometric radiation modulation

Andrews, D. J.; Bunce, E. J.; Cowley, S. W. H.; Dougherty, M. K.; Provan, G.; Southwood, D. J.

doi:10.1029/2007ja012937

Cited by 104 publications

(305 citation statements)

References 30 publications

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“…Each of these two systems then rotates at similar but separate periods close to the planetary rotation period, that have been found, initially through tracking related modulated radio wave emissions, to vary slowly with Saturn's seasons [Galopeau and Lecacheux, 2000;Kurth et al, 2008;Gurnett et al, 2009aGurnett et al, , 2009bGurnett et al, , 2011Lamy, 2011]. Essentially the same rotation periods have been derived by following the phase of the resulting magnetic field oscillations observed during periapsis passes of the Cassini spacecraft [Andrews et al, 2008[Andrews et al, , 2010bProvan et al, 2014]. During the interval of interest here spanning 2008, occurring somewhat before Saturn equinox in mid-August 2009, the northern and southern periods were well separated at~10.60 and 10.82 h, respectively.…”

Section: Introductionmentioning

confidence: 90%

“…During the interval of interest here spanning 2008, occurring somewhat before Saturn equinox in mid-August 2009, the northern and southern periods were well separated at~10.60 and 10.82 h, respectively. At a given point in the equatorial region inside the main field-aligned current sheets the azimuthal field of each system thus oscillates in lagging quadrature with the radial component, this being the signature of a quasi-uniform perturbation field in the near-equatorial region, while outside the current sheets the sense of the azimuthal field is reversed so that it oscillates in leading quadrature with the radial, this being the signature of a quasi-dipolar field [Espinosa and Dougherty, 2000;Espinosa et al, 2003;Cowley et al, 2006;Southwood and Kivelson, 2007;Andrews et al, 2008Andrews et al, , 2010aProvan et al, 2009]. The colatitudinal component then oscillates in antiphase with the radial in the northern system and in-phase with the radial in the southern, as is evident in Figures 1e and 1h.…”

Section: Introductionmentioning

confidence: 99%

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Field‐aligned currents in Saturn's northern nightside magnetosphere: Evidence for interhemispheric current flow associated with planetary period oscillations

et al. 2015

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We investigate the magnetic perturbations associated with field‐aligned currents observed on 34 Cassini passes over the premidnight northern auroral region during 2008. These are found to be significantly modulated not only by the northern planetary‐period oscillation (PPO) system, similar to the southern currents by the southern PPO system found previously, but also by the southern PPO system as well, thus providing the first clear evidence of PPO‐related interhemispheric current flow. The principal field‐aligned currents of the two PPO systems are found to be co‐located in northern ionospheric colatitude, together with the currents of the PPO‐independent (subcorotation) system, located between the vicinity of the open‐closed field boundary and field lines mapping to ~9 Saturn radius (Rs) in the equatorial plane. All three systems are of comparable magnitude, ~3 MA in each PPO half‐cycle. Smaller PPO‐related field‐aligned currents of opposite polarity also flow in the interior region, mapping between ~6 and ~9 Rs in the equatorial plane, carrying a current of ~ ±2 MA per half‐cycle, which significantly reduce the oscillation amplitudes in the interior region. Within this interior region the amplitudes of the northern and southern oscillations are found to fall continuously with distance along the field lines from the corresponding hemisphere, thus showing the presence of cross‐field currents, with the southern oscillations being dominant in the south, and modestly lower in amplitude than the northern oscillations in the north. As in previous studies, no oscillations related to the opposite hemisphere are found on open field lines in either hemisphere.

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Section: Introductionmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Field‐aligned currents in Saturn's northern nightside magnetosphere: Evidence for interhemispheric current flow associated with planetary period oscillations

et al. 2015

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“…Below we summarize the form of the PPO magnetic systems previously reported in other publications [see, e.g., Andrews et al, 2008Andrews et al, , 2010aAndrews et al, , 2010bAndrews et al, , 2012Provan et al, 2011Provan et al, , 2013. There are two magnetic perturbation systems which take the form of perturbation field loops, one closing over the northern (N) pole and the other over the southern (S) pole.…”

Section: Overview Of the Form And Theoretical Analysis Of Magnetic Fimentioning

confidence: 99%

“…Despite this, however, oscillations with a period near thẽ 11 h planetary period are observed throughout Saturn's magnetosphere. Such modulations are observed in the magnetic field, Saturnian kilometric radiation (SKR), plasma parameters, energetic particle fluxes, and associated neutral atom emissions, as well as auroral ultraviolet, infrared, and radio emissions [e.g., Warwick et al, 1981Warwick et al, , 1982Desch and Kaiser, 1981;Gurnett et al, 1981Gurnett et al, , 2007Gurnett et al, , 2010aSandel and Broadfoot, 1981;Sandel et al, 1982;Carbary and Krimigis, 1982;Espinosa and Dougherty, 2000;Krupp et al, 2005;Cowley et al, 2006;Kurth et al, 2007;Southwood and Kivelson, 2007;Carbary et al, 2007Carbary et al, , 2008aCarbary et al, , 2008bZarka et al, 2007;Andrews et al, 2008;Nichols et al, 2008Nichols et al, , 2010aNichols et al, , 2010bBurch et al, 2009;Provan et al, 2009aProvan et al, , 2009bClarke et al, 2006;Badman et al, 2012;Lamy et al, 2013]. Those oscillations were first observed in Voyager measurements of the SKR emissions, around the time of Saturn's northern hemisphere spring equinox [Kaiser et al, 1980].…”

Section: Introductionmentioning

confidence: 99%

“…Andrews et al [2008] have described how ψ i is determined for each of the three components of the magnetic field on an orbit-by-orbit basis by a cross-correlation analysis between the observed oscillations and an oscillation at a guide period selected to be close to the period of the oscillations. The ψ i phases are then plotted versus time, relative to a suitable guide phase, in the S and N format.…”

Section: 1002/2015ja021642mentioning

confidence: 99%

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Planetary period oscillations in Saturn's magnetosphere: Examining the relationship between abrupt changes in behavior and solar wind‐induced magnetospheric compressions and expansions

et al. 2015

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We examine planetary period oscillations (PPOs) observed in Saturn's magnetospheric magnetic field data from the time of Saturn's equinox in 2009. In particular, we focus on the time period commencing February 2011, when the oscillations started to display sudden and unexpected changes in behavior at ~100–200 day intervals. These were characterized by large simultaneous changes in the amplitude of the northern and southern PPO systems, together with small changes in period and jumps in phase. Nine significant abrupt changes have been observed in the postequinox interval to date, commencing as the Sun started to emerge from a long extended solar minimum. We perform a statistical study to determine whether these modulations in PPO behavior were associated with changes in the solar and/or upstream solar wind conditions. We report that the upstream solar wind conditions show elevated values of solar wind dynamic pressure and density around the time of PPO behavioral transitions, as opposed to before and after these times. We suggest that abrupt changes in PPO behavior may be related to significant changes in the size of the Saturnian magnetosphere in response to varying solar wind conditions.

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Saturn's magnetospheric planetary period oscillations, neutral atmosphere circulation, and thunderstorm activity: Implications, or otherwise, for physical links

Cowley

Provan

2013

JGR Space Physics

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Suggestions that the planetary period oscillations (PPOs) observed in Saturn's magnetosphere may be driven or influenced by neutral atmospheric perturbations motivate an exploratory comparison of PPO rotation periods with available tropospheric and stratospheric determinations. Nonpolar atmospheric rotation periods occupy the range ~10.2–10.7 h associated with the latitudinal jet structure, are similar north and south, and are independent of season, while PPO periods lie in a narrower partly overlapping range ~10.6–10.8 h, are persistently shorter north than south, and undergo a seasonal cycle. In this cycle, widely separated north‐south PPO periods during southern summer converge across equinox to values lying within the atmospheric west jet band, remaining well‐separated from east jet periods. Closest convergence occurred 1 year post equinox, contemporaneously with the switch in seasonal thunderstorm activity from Southern to Northern Hemispheres. Since most large‐scale atmospheric phenomena are related to the west jets, rotating with closely similar periods, they also rotate with periods close to the PPOs under post equinoctial conditions but not otherwise. Specifically, post equinox northern PPOs rotate with a period close to the southern thunderstorms, as well as the north polar spot and hexagon features, while the post equinox southern PPOs rotate with a period close to the pre‐equinox northern “string of pearls” and the first colocated post equinox northern thunderstorm, the Great White Spot event. However, even under these conditions, no consistent correspondences in period are found at a detailed level, which taken together with the lack of correspondence at other times does not suggest a direct physical link exists between these phenomena.

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Planetary period oscillations in Saturn's magnetosphere: Phase relation of equatorial magnetic field oscillations and Saturn kilometric radiation modulation

Cited by 104 publications

References 30 publications

Field‐aligned currents in Saturn's northern nightside magnetosphere: Evidence for interhemispheric current flow associated with planetary period oscillations

Field‐aligned currents in Saturn's northern nightside magnetosphere: Evidence for interhemispheric current flow associated with planetary period oscillations

Planetary period oscillations in Saturn's magnetosphere: Examining the relationship between abrupt changes in behavior and solar wind‐induced magnetospheric compressions and expansions

Saturn's magnetospheric planetary period oscillations, neutral atmosphere circulation, and thunderstorm activity: Implications, or otherwise, for physical links

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