SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892099919> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W2892099919 endingPage "S57" @default.
W2892099919 startingPage "S34" @default.
W2892099919 abstract "SUMMARY Precession of planets or moons affects internal liquid layers by driving flows, instabilities and possibly dynamos. The energy dissipated by these phenomena can influence orbital parameters such as the planet’s spin rate. However, there is no systematic study of these flows in the spherical shell geometry relevant for planets, and the lack of scaling law prevents convincing extrapolation to celestial bodies. We have run more than 900 simulations of fluid spherical shells affected by precession, to systematically study basic flows, instabilities, turbulence and magnetic field generation. We observe no significant effects of the inner core on the onset of the instabilities. We obtain an analytical estimate of the viscous dissipation, mostly due to boundary layer friction in our simulations. We propose theoretical onsets for hydrodynamic instabilities, and document the intensity of turbulent fluctuations. We extend previous precession dynamo studies towards lower viscosities, at the limits of today’s computers. In the low viscosity regime, precession dynamos rely on the presence of large-scale vortices, and the surface magnetic fields are dominated by small scales. Interestingly, intermittent and self-killing dynamos are observed. Our results suggest that large-scale planetary magnetic fields are unlikely to be produced by a precession-driven dynamo in a spherical core. But this question remains open as planetary cores are not exactly spherical, and thus the coupling between the fluid and the boundary does not vanish in the relevant limit of small viscosity. Moreover, the fully turbulent dissipation regime has not yet been reached in simulations. Our results suggest that the melted lunar core has been in a turbulent state throughout its history. Furthermore, in the view of recent experimental results, we propose updated formulas predicting the fluid mean rotation vector and the associated dissipation in both the laminar and the turbulent regimes." @default.
W2892099919 created "2018-09-27" @default.
W2892099919 creator A5015388482 @default.
W2892099919 creator A5057914081 @default.
W2892099919 creator A5077765889 @default.
W2892099919 creator A5079398219 @default.
W2892099919 date "2019-01-21" @default.
W2892099919 modified "2023-09-30" @default.
W2892099919 title "Precessing spherical shells: flows, dissipation, dynamo and the lunar core" @default.
W2892099919 cites W1654398332 @default.
W2892099919 cites W1932069152 @default.
W2892099919 cites W1963009443 @default.
W2892099919 cites W1967604670 @default.
W2892099919 cites W1969023173 @default.
W2892099919 cites W1969605474 @default.
W2892099919 cites W1971539741 @default.
W2892099919 cites W1974612204 @default.
W2892099919 cites W1978843152 @default.
W2892099919 cites W1985216166 @default.
W2892099919 cites W1992427738 @default.
W2892099919 cites W2007819466 @default.
W2892099919 cites W2015569180 @default.
W2892099919 cites W2020438951 @default.
W2892099919 cites W2021395636 @default.
W2892099919 cites W2026985903 @default.
W2892099919 cites W2027886507 @default.
W2892099919 cites W2029264103 @default.
W2892099919 cites W2033736562 @default.
W2892099919 cites W2047095397 @default.
W2892099919 cites W2060175453 @default.
W2892099919 cites W2065635881 @default.
W2892099919 cites W2066852872 @default.
W2892099919 cites W2066945211 @default.
W2892099919 cites W2073110411 @default.
W2892099919 cites W2073424199 @default.
W2892099919 cites W2073724146 @default.
W2892099919 cites W2081398154 @default.
W2892099919 cites W2088500402 @default.
W2892099919 cites W2088687513 @default.
W2892099919 cites W2089073422 @default.
W2892099919 cites W2104334205 @default.
W2892099919 cites W2126919270 @default.
W2892099919 cites W2127111709 @default.
W2892099919 cites W2128211561 @default.
W2892099919 cites W2136736246 @default.
W2892099919 cites W2137075291 @default.
W2892099919 cites W2150279352 @default.
W2892099919 cites W2152817307 @default.
W2892099919 cites W2154660772 @default.
W2892099919 cites W2168763903 @default.
W2892099919 cites W2266357608 @default.
W2892099919 cites W2320563077 @default.
W2892099919 cites W2332929686 @default.
W2892099919 cites W2338300485 @default.
W2892099919 cites W2416424819 @default.
W2892099919 cites W2530385908 @default.
W2892099919 cites W2605036843 @default.
W2892099919 cites W2627088235 @default.
W2892099919 cites W2669652692 @default.
W2892099919 cites W2745799716 @default.
W2892099919 cites W2750191437 @default.
W2892099919 cites W2769396661 @default.
W2892099919 cites W2788359977 @default.
W2892099919 cites W2792456467 @default.
W2892099919 cites W2952839721 @default.
W2892099919 cites W2962783014 @default.
W2892099919 cites W2985334810 @default.
W2892099919 cites W3012138095 @default.
W2892099919 cites W3021436502 @default.
W2892099919 cites W3099506839 @default.
W2892099919 cites W3099717252 @default.
W2892099919 cites W3101579375 @default.
W2892099919 cites W3121354812 @default.
W2892099919 cites W4245858499 @default.
W2892099919 doi "https://doi.org/10.1093/gji/ggz037" @default.
W2892099919 hasPublicationYear "2019" @default.
W2892099919 type Work @default.
W2892099919 sameAs 2892099919 @default.
W2892099919 citedByCount "42" @default.
W2892099919 countsByYear W28920999192019 @default.
W2892099919 countsByYear W28920999192020 @default.
W2892099919 countsByYear W28920999192021 @default.
W2892099919 countsByYear W28920999192022 @default.
W2892099919 countsByYear W28920999192023 @default.
W2892099919 crossrefType "journal-article" @default.
W2892099919 hasAuthorship W2892099919A5015388482 @default.
W2892099919 hasAuthorship W2892099919A5057914081 @default.
W2892099919 hasAuthorship W2892099919A5077765889 @default.
W2892099919 hasAuthorship W2892099919A5079398219 @default.
W2892099919 hasBestOaLocation W28920999191 @default.
W2892099919 hasConcept C105094362 @default.
W2892099919 hasConcept C108280814 @default.
W2892099919 hasConcept C115260700 @default.
W2892099919 hasConcept C121332964 @default.
W2892099919 hasConcept C1276947 @default.
W2892099919 hasConcept C135402231 @default.
W2892099919 hasConcept C135757623 @default.
W2892099919 hasConcept C152406496 @default.