SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2123160401> ?p ?o ?g. }

Showing items 1 to 100 of ±180 with 100 items per page.

W2123160401 endingPage "1098" @default.
W2123160401 startingPage "1073" @default.
W2123160401 abstract "The operation of the solar global dynamo appears to involve many dynamical elements, including the generation of fields by the intense turbulence of the deep convection zone, the transport of these fields into the tachocline region near the base of the convection zone, the storage and amplification of toroidal fields in the tachocline by differential rotation, and the destabilization and emergence of such fields due to magnetic buoyancy. Self-consistent magnetohydrodynamic (MHD) simulations that realistically incorporate all of these processes are not yet computationally feasible, although some elements can now be studied with reasonable fidelity. Here we consider the manner in which turbulent compressible convection within the bulk of the solar convection zone can generate large-scale magnetic fields through dynamo action. We accomplish this through a series of three-dimensional numerical simulations of MHD convection within rotating spherical shells using our anelastic spherical harmonic (ASH) code on massively parallel supercomputers. Since differential rotation is a key ingredient in all dynamo models, we also examine here the nature of the rotation profiles that can be sustained within the deep convection zone as strong magnetic fields are built and maintained. We find that the convection is able to maintain a solar-like angular velocity profile despite the influence of Maxwell stresses, which tend to oppose Reynolds stresses and thus reduce the latitudinal angular velocity contrast throughout the convection zone. The dynamo-generated magnetic fields exhibit a complex structure and evolution, with radial fields concentrated in downflow lanes and toroidal fields organized into twisted ribbons that are extended in longitude and achieve field strengths of up to 5000 G. The flows and fields exhibit substantial kinetic and magnetic helicity although systematic hemispherical patterns are only apparent in the former. Fluctuating fields dominate the magnetic energy and account for most of the back-reaction on the flow via Lorentz forces. Mean fields are relatively weak and do not exhibit systematic latitudinal propagation or periodic polarity reversals as in the Sun. This may be attributed to the absence of a tachocline, i.e., a penetrative boundary layer between the convection zone and the deeper radiative interior possessing strong rotational shear. The influence of such a layer will await subsequent studies." @default.
W2123160401 created "2016-06-24" @default.
W2123160401 creator A5018307461 @default.
W2123160401 creator A5029610728 @default.
W2123160401 creator A5074803275 @default.
W2123160401 date "2004-10-20" @default.
W2123160401 modified "2023-09-25" @default.
W2123160401 title "Global‐Scale Turbulent Convection and Magnetic Dynamo Action in the Solar Envelope" @default.
W2123160401 cites W1492821774 @default.
W2123160401 cites W1509202361 @default.
W2123160401 cites W1530104757 @default.
W2123160401 cites W1562962220 @default.
W2123160401 cites W1909175528 @default.
W2123160401 cites W1964569067 @default.
W2123160401 cites W1965023874 @default.
W2123160401 cites W1977181962 @default.
W2123160401 cites W1977971109 @default.
W2123160401 cites W1980536662 @default.
W2123160401 cites W1983392532 @default.
W2123160401 cites W1991796807 @default.
W2123160401 cites W1992513211 @default.
W2123160401 cites W1994976007 @default.
W2123160401 cites W1995171673 @default.
W2123160401 cites W1998699223 @default.
W2123160401 cites W2000587353 @default.
W2123160401 cites W2001201668 @default.
W2123160401 cites W2001888703 @default.
W2123160401 cites W2003179869 @default.
W2123160401 cites W2004996212 @default.
W2123160401 cites W2006214166 @default.
W2123160401 cites W2007347981 @default.
W2123160401 cites W2008154360 @default.
W2123160401 cites W2011267979 @default.
W2123160401 cites W2011565560 @default.
W2123160401 cites W2015440388 @default.
W2123160401 cites W2017397763 @default.
W2123160401 cites W2021145937 @default.
W2123160401 cites W2028304141 @default.
W2123160401 cites W2030537075 @default.
W2123160401 cites W2034011681 @default.
W2123160401 cites W2037903767 @default.
W2123160401 cites W2042691751 @default.
W2123160401 cites W2043944402 @default.
W2123160401 cites W2044416015 @default.
W2123160401 cites W2047082623 @default.
W2123160401 cites W2048132125 @default.
W2123160401 cites W2048512211 @default.
W2123160401 cites W2049805135 @default.
W2123160401 cites W2052239839 @default.
W2123160401 cites W2053081761 @default.
W2123160401 cites W2057737050 @default.
W2123160401 cites W2061195673 @default.
W2123160401 cites W2061479320 @default.
W2123160401 cites W2064406119 @default.
W2123160401 cites W2065342302 @default.
W2123160401 cites W2068019452 @default.
W2123160401 cites W2069083830 @default.
W2123160401 cites W2071555048 @default.
W2123160401 cites W2082550498 @default.
W2123160401 cites W2083548085 @default.
W2123160401 cites W2086261805 @default.
W2123160401 cites W2088274659 @default.
W2123160401 cites W2088984756 @default.
W2123160401 cites W2089958045 @default.
W2123160401 cites W2089961739 @default.
W2123160401 cites W2090765662 @default.
W2123160401 cites W2092786354 @default.
W2123160401 cites W2099397421 @default.
W2123160401 cites W2104372369 @default.
W2123160401 cites W210602584 @default.
W2123160401 cites W2111220702 @default.
W2123160401 cites W2119078215 @default.
W2123160401 cites W2126356313 @default.
W2123160401 cites W2128521752 @default.
W2123160401 cites W2129956165 @default.
W2123160401 cites W2130971714 @default.
W2123160401 cites W2131272233 @default.
W2123160401 cites W2134606886 @default.
W2123160401 cites W2137730007 @default.
W2123160401 cites W2139090302 @default.
W2123160401 cites W2142890620 @default.
W2123160401 cites W2153115547 @default.
W2123160401 cites W2156329577 @default.
W2123160401 cites W2163512506 @default.
W2123160401 cites W2163623748 @default.
W2123160401 cites W2289766298 @default.
W2123160401 cites W3099345493 @default.
W2123160401 cites W3100163653 @default.
W2123160401 cites W3177773949 @default.
W2123160401 cites W4249171896 @default.
W2123160401 cites W4249783881 @default.
W2123160401 cites W4250959415 @default.
W2123160401 cites W4254912643 @default.
W2123160401 cites W4307237617 @default.
W2123160401 doi "https://doi.org/10.1086/423835" @default.
W2123160401 hasPublicationYear "2004" @default.
W2123160401 type Work @default.
W2123160401 sameAs 2123160401 @default.