Nonlinear hydromagnetic waves in a thermally stratified spherical shell: Exact toroidal field solutions
The propagation of nonlinear hydromagnetic waves in a highly conducting, self‐gravitating fluid in a spherical geometry, subject to the convective forces produced by a radial temperature gradient, is treated in a Boussinesq approximation. Exact wave solutions of the nonlinear magnetohydrodynamic equ...
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| Published in | Physics of plasmas Vol. 1; no. 8; pp. 2574 - 2578 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
United States
01.08.1994
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1070-664X 1089-7674 |
| DOI | 10.1063/1.870933 |
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| Abstract | The propagation of nonlinear hydromagnetic waves in a highly conducting, self‐gravitating fluid in a spherical geometry, subject to the convective forces produced by a radial temperature gradient, is treated in a Boussinesq approximation. Exact wave solutions of the nonlinear magnetohydrodynamic equations (in the Boussinesq approximation) in the presence of convective forces are obtained for the toroidal velocity and magnetic fields. The solution represents waves propagating along the mean magnetic field with the velocity depending on the mean magnetic (or velocity) field strength and the strength of stratification, under the influence of the azimuthal magnetic and velocity fields and convective forces. The solutions may be applicable to the hydromagnetic waves in the Earth’s core and the solar convection zone. |
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| AbstractList | The propagation of nonlinear hydromagnetic waves in a highly conducting, self‐gravitating fluid in a spherical geometry, subject to the convective forces produced by a radial temperature gradient, is treated in a Boussinesq approximation. Exact wave solutions of the nonlinear magnetohydrodynamic equations (in the Boussinesq approximation) in the presence of convective forces are obtained for the toroidal velocity and magnetic fields. The solution represents waves propagating along the mean magnetic field with the velocity depending on the mean magnetic (or velocity) field strength and the strength of stratification, under the influence of the azimuthal magnetic and velocity fields and convective forces. The solutions may be applicable to the hydromagnetic waves in the Earth’s core and the solar convection zone. |
| Author | Hamabata, Hiromitsu |
| Author_xml | – sequence: 1 givenname: Hiromitsu surname: Hamabata fullname: Hamabata, Hiromitsu organization: Department of Physics, Faculty of Science, Osaka City University, Osaka 558, Japan |
| BackLink | https://www.osti.gov/biblio/6922184$$D View this record in Osti.gov |
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| Cites_doi | 10.1098/rsta.1966.0026 10.1016/0375-9601(87)90459-2 10.1063/1.859365 10.1063/1.859366 10.1017/S0022377800014987 10.1063/1.866770 10.1017/S0022377800014331 10.1017/S0022112092002866 10.1080/03091928408248179 |
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| Keywords | EARTH CORE ALFVEN WAVES CONVECTION HYDROMAGNETIC WAVES MAGNETOHYDRODYNAMICS SPHERICAL CONFIGURATION ANALYTICAL SOLUTION |
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| References | Hamabata (r8) 1990; 2 Hamabata (r10) 1992; 243 Hamabata, Namikawa (r6) 1989; 42 Hamabata (r3) 1990; 44 Parker (r9) 1984; 29 Namikawa, Hamabata (r5) 1988; 31 Hamabata (r7) 1990; 2 Walén (r1) 1944; 30 Namikawa, Hamabata (r4) 1987; 126 Walén (r1) 1944; 3 Hide (r12) 1966; 259 Hamabata (r11) 1993; 5 (2024021017093251200_r1a) 1944; 3 (2024021017093251200_r9) 1984; 29 (2024021017093251200_r6) 1989; 42 (2024021017093251200_r8) 1990; 2 (2024021017093251200_r11) 1993; 5 (2024021017093251200_r12) 1966; 259 (2024021017093251200_r5) 1988; 31 (2024021017093251200_r3) 1990; 44 (2024021017093251200_r10) 1992; 243 2024021017093251200_r2 (2024021017093251200_r1) 1944; 30 (2024021017093251200_r4) 1987; 126 (2024021017093251200_r7) 1990; 2 |
| References_xml | – volume: 3 start-page: 1 year: 1944 ident: r1 – volume: 126 start-page: 195 issn: 0375-9601 year: 1987 ident: r4 publication-title: Phys. Lett. A – volume: 2 start-page: 2995 issn: 0899-8221 year: 1990 ident: r8 publication-title: Phys. Fluids B – volume: 30 start-page: 1 year: 1944 ident: r1 publication-title: Ark. Mat. Astron. Fys. A – volume: 42 start-page: 247 issn: 0022-3778 year: 1989 ident: r6 publication-title: J. Plasma Phys. – volume: 44 start-page: 25 issn: 0022-3778 year: 1990 ident: r3 publication-title: J. Plasma Phys. – volume: 2 start-page: 2990 issn: 0899-8221 year: 1990 ident: r7 publication-title: Phys. Fluids B – volume: 31 start-page: 887 issn: 0031-9171 year: 1988 ident: r5 publication-title: Phys. Fluids – volume: 29 start-page: 1 issn: 0309-1929 year: 1984 ident: r9 publication-title: Geophys. Astrophys. Fluid Dyn. – volume: 243 start-page: 637 issn: 0022-1120 year: 1992 ident: r10 publication-title: J. Fluid Mech. – volume: 5 start-page: 2088 issn: 0899-8221 year: 1993 ident: r11 publication-title: Phys. Fluids B – volume: 259 start-page: 615 issn: 0962-8428 year: 1966 ident: r12 publication-title: Philos. Trans, R. Soc. London Ser. A – volume: 259 start-page: 615 year: 1966 ident: 2024021017093251200_r12 publication-title: Philos. Trans, R. Soc. London Ser. A doi: 10.1098/rsta.1966.0026 – volume: 3 start-page: 1 year: 1944 ident: 2024021017093251200_r1a – volume: 126 start-page: 195 year: 1987 ident: 2024021017093251200_r4 publication-title: Phys. Lett. A doi: 10.1016/0375-9601(87)90459-2 – volume: 2 start-page: 2990 year: 1990 ident: 2024021017093251200_r7 publication-title: Phys. Fluids B doi: 10.1063/1.859365 – volume: 2 start-page: 2995 year: 1990 ident: 2024021017093251200_r8 publication-title: Phys. Fluids B doi: 10.1063/1.859366 – volume: 44 start-page: 25 year: 1990 ident: 2024021017093251200_r3 publication-title: J. Plasma Phys. doi: 10.1017/S0022377800014987 – ident: 2024021017093251200_r2 – volume: 30 start-page: 1 year: 1944 ident: 2024021017093251200_r1 publication-title: Ark. Mat. Astron. Fys. A – volume: 31 start-page: 887 year: 1988 ident: 2024021017093251200_r5 publication-title: Phys. Fluids doi: 10.1063/1.866770 – volume: 42 start-page: 247 year: 1989 ident: 2024021017093251200_r6 publication-title: J. Plasma Phys. doi: 10.1017/S0022377800014331 – volume: 243 start-page: 637 year: 1992 ident: 2024021017093251200_r10 publication-title: J. Fluid Mech. doi: 10.1017/S0022112092002866 – volume: 29 start-page: 1 year: 1984 ident: 2024021017093251200_r9 publication-title: Geophys. Astrophys. Fluid Dyn. doi: 10.1080/03091928408248179 – volume: 5 start-page: 2088 year: 1993 ident: 2024021017093251200_r11 publication-title: Phys. Fluids B |
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| Snippet | The propagation of nonlinear hydromagnetic waves in a highly conducting, self‐gravitating fluid in a spherical geometry, subject to the convective forces... The propagation of nonlinear hydromagnetic waves in a highly conducting, self-gravitating fluid in a spherical geometry, subject to the convective forces... |
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| SubjectTerms | 70 PLASMA PHYSICS AND FUSION TECHNOLOGY 700340 -- Plasma Waves, Oscillations, & Instabilities-- (1992-) ALFVEN WAVES ANALYTICAL SOLUTION CONFIGURATION CONVECTION EARTH CORE ENERGY TRANSFER FLUID MECHANICS HEAT TRANSFER HYDRODYNAMICS HYDROMAGNETIC WAVES MAGNETOHYDRODYNAMICS MASS TRANSFER MECHANICS 700370 -- Plasma Fluid & MHD Properties-- (1992-) SPHERICAL CONFIGURATION |
| Title | Nonlinear hydromagnetic waves in a thermally stratified spherical shell: Exact toroidal field solutions |
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