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Destabilizing resonances of precessing inertia-gravity waves
Instabilities in stratified precessing fluid are investigated. We extend the study by Mahalov [Phys. Fluids A 5, 891 (1993)0899-821310.1063/1.858635] in the stably stratified Boussinesq framework, with an external Coriolis force (with rate Ω_{p}) altering the base flow through the distortion of the...
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| Published in: | Physical review. E 2022-03, Vol.105 (3-2), p.035107-035107, Article 035107 |
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| creator | Benkacem, N Salhi, A Khlifi, A Nasraoui, S Cambon, C |
| description | Instabilities in stratified precessing fluid are investigated. We extend the study by Mahalov [Phys. Fluids A 5, 891 (1993)0899-821310.1063/1.858635] in the stably stratified Boussinesq framework, with an external Coriolis force (with rate Ω_{p}) altering the base flow through the distortion of the circular streamlines of the unperturbed axially stratified rotating columns (with constant vorticity 2Ω.) It is shown that the inviscid part of the modified velocity flow (0,Ωr,-2ɛΩrsinφ) and buoyancy with gradient N^{2}(-2ɛcosφ,2ɛsinφ,1) are an exact solution of Boussinesq-Euler equations. Here (r,φ,z) is a cylindrical coordinate system, with ɛ=Ω_{p}/Ω being the Poincaré number and N the Brunt-Väisälä frequency. The base flow is transformed into a Cartesian coordinate system, and the stability of a superimposed perturbation is studied in terms of Fourier (or Kelvin) modes. The resulting Floquet system for the Fourier modes has three parameters: ɛ, N=N/Ω, and μ, which is the angle between the wave vector k and the solid-body rotation axis in the limit ɛ=0. In this limit, there are inertia-gravity waves propagating with frequency ±ω and the resonant cases are those for which 2ω=nΩ, n being an integer. We perform an asymptotic analysis to leading order in ɛ and characterize the destabilizing resonant case of order n=1 (i.e., the subharmonic instability) which exists and for 0≤N |
| doi_str_mv | 10.1103/PhysRevE.105.035107 |
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We extend the study by Mahalov [Phys. Fluids A 5, 891 (1993)0899-821310.1063/1.858635] in the stably stratified Boussinesq framework, with an external Coriolis force (with rate Ω_{p}) altering the base flow through the distortion of the circular streamlines of the unperturbed axially stratified rotating columns (with constant vorticity 2Ω.) It is shown that the inviscid part of the modified velocity flow (0,Ωr,-2ɛΩrsinφ) and buoyancy with gradient N^{2}(-2ɛcosφ,2ɛsinφ,1) are an exact solution of Boussinesq-Euler equations. Here (r,φ,z) is a cylindrical coordinate system, with ɛ=Ω_{p}/Ω being the Poincaré number and N the Brunt-Väisälä frequency. The base flow is transformed into a Cartesian coordinate system, and the stability of a superimposed perturbation is studied in terms of Fourier (or Kelvin) modes. The resulting Floquet system for the Fourier modes has three parameters: ɛ, N=N/Ω, and μ, which is the angle between the wave vector k and the solid-body rotation axis in the limit ɛ=0. In this limit, there are inertia-gravity waves propagating with frequency ±ω and the resonant cases are those for which 2ω=nΩ, n being an integer. We perform an asymptotic analysis to leading order in ɛ and characterize the destabilizing resonant case of order n=1 (i.e., the subharmonic instability) which exists and for 0≤N<Ω/2. In this range, the subharmonic instability remains the strongest with a maximal growth rate σ_{m}=[ɛ(5sqrt[15]/8)sqrt[1-4N^{2}]/(4-N^{2})]. Stable stratification acts in such a way as to make the subharmonic instability less efficient, so as it disappears for N≥0.5Ω. The destabilizing resonant cases of order n=2,3,4,5 are investigated in detail by numerical computations. The effect of viscosity on these instabilities is briefly addressed assuming the diffusive coefficients (kinematic and thermal) are equal. Likewise, we briefly investigate the case where N^{2}<0 and show that the instability associated to the mode with k_{3}=0 is the strongest.</description><identifier>ISSN: 2470-0045</identifier><identifier>EISSN: 2470-0053</identifier><identifier>DOI: 10.1103/PhysRevE.105.035107</identifier><identifier>PMID: 35428057</identifier><language>eng</language><publisher>United States: American Physical Society (APS)</publisher><subject>Condensed Matter ; Fluid mechanics ; Mechanics ; Mesoscopic Systems and Quantum Hall Effect ; Physics</subject><ispartof>Physical review. 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E</title><addtitle>Phys Rev E</addtitle><description>Instabilities in stratified precessing fluid are investigated. We extend the study by Mahalov [Phys. Fluids A 5, 891 (1993)0899-821310.1063/1.858635] in the stably stratified Boussinesq framework, with an external Coriolis force (with rate Ω_{p}) altering the base flow through the distortion of the circular streamlines of the unperturbed axially stratified rotating columns (with constant vorticity 2Ω.) It is shown that the inviscid part of the modified velocity flow (0,Ωr,-2ɛΩrsinφ) and buoyancy with gradient N^{2}(-2ɛcosφ,2ɛsinφ,1) are an exact solution of Boussinesq-Euler equations. Here (r,φ,z) is a cylindrical coordinate system, with ɛ=Ω_{p}/Ω being the Poincaré number and N the Brunt-Väisälä frequency. The base flow is transformed into a Cartesian coordinate system, and the stability of a superimposed perturbation is studied in terms of Fourier (or Kelvin) modes. The resulting Floquet system for the Fourier modes has three parameters: ɛ, N=N/Ω, and μ, which is the angle between the wave vector k and the solid-body rotation axis in the limit ɛ=0. In this limit, there are inertia-gravity waves propagating with frequency ±ω and the resonant cases are those for which 2ω=nΩ, n being an integer. We perform an asymptotic analysis to leading order in ɛ and characterize the destabilizing resonant case of order n=1 (i.e., the subharmonic instability) which exists and for 0≤N<Ω/2. In this range, the subharmonic instability remains the strongest with a maximal growth rate σ_{m}=[ɛ(5sqrt[15]/8)sqrt[1-4N^{2}]/(4-N^{2})]. Stable stratification acts in such a way as to make the subharmonic instability less efficient, so as it disappears for N≥0.5Ω. The destabilizing resonant cases of order n=2,3,4,5 are investigated in detail by numerical computations. The effect of viscosity on these instabilities is briefly addressed assuming the diffusive coefficients (kinematic and thermal) are equal. Likewise, we briefly investigate the case where N^{2}<0 and show that the instability associated to the mode with k_{3}=0 is the strongest.</description><subject>Condensed Matter</subject><subject>Fluid mechanics</subject><subject>Mechanics</subject><subject>Mesoscopic Systems and Quantum Hall Effect</subject><subject>Physics</subject><issn>2470-0045</issn><issn>2470-0053</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><recordid>eNo9UE1Lw0AUXESxpfYXCJKjHlLffm_AS6nVCgVF9Lxskk27kiZ1N43UX29Kak9vmDczjzcIXWOYYAz0_m29D--2nU8w8AlQjkGeoSFhEmIATs9PmPEBGofwBQBYQCIxuUQDyhlRwOUQPTza0JjUle7XVavI21BXpspsiOoi2nrboXBYuMr6xpl45U3rmn30Y1obrtBFYcpgx8c5Qp9P84_ZIl6-Pr_Mpss4o4o1MVUECm45MyLNubJCJTkTJJMs5UIyyZSyeWHTHBdGqEKkmUmZTHCeyVyRQtARuutz16bUW-82xu91bZxeTJf6wAHDmBDKWtxpb3vt1tffu-45vXEhs2VpKlvvgiaCY5EAYayT0l6a-ToEb4tTNgZ9aFn_t9wRXPctd66b44FdurH5yfPfKf0DJ295NQ</recordid><startdate>20220301</startdate><enddate>20220301</enddate><creator>Benkacem, N</creator><creator>Salhi, A</creator><creator>Khlifi, A</creator><creator>Nasraoui, S</creator><creator>Cambon, C</creator><general>American Physical Society (APS)</general><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>1XC</scope><scope>VOOES</scope><orcidid>https://orcid.org/0000-0002-6825-5195</orcidid></search><sort><creationdate>20220301</creationdate><title>Destabilizing resonances of precessing inertia-gravity waves</title><author>Benkacem, N ; Salhi, A ; Khlifi, A ; Nasraoui, S ; Cambon, C</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c384t-3820f5e54a6bd58e689d462c74b56747488edfebd1fa68f6bcab4791dc7d82f63</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2022</creationdate><topic>Condensed Matter</topic><topic>Fluid mechanics</topic><topic>Mechanics</topic><topic>Mesoscopic Systems and Quantum Hall Effect</topic><topic>Physics</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Benkacem, N</creatorcontrib><creatorcontrib>Salhi, A</creatorcontrib><creatorcontrib>Khlifi, A</creatorcontrib><creatorcontrib>Nasraoui, S</creatorcontrib><creatorcontrib>Cambon, C</creatorcontrib><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>Hyper Article en Ligne (HAL)</collection><collection>Hyper Article en Ligne (HAL) (Open Access)</collection><jtitle>Physical review. E</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Benkacem, N</au><au>Salhi, A</au><au>Khlifi, A</au><au>Nasraoui, S</au><au>Cambon, C</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Destabilizing resonances of precessing inertia-gravity waves</atitle><jtitle>Physical review. E</jtitle><addtitle>Phys Rev E</addtitle><date>2022-03-01</date><risdate>2022</risdate><volume>105</volume><issue>3-2</issue><spage>035107</spage><epage>035107</epage><pages>035107-035107</pages><artnum>035107</artnum><issn>2470-0045</issn><eissn>2470-0053</eissn><abstract>Instabilities in stratified precessing fluid are investigated. We extend the study by Mahalov [Phys. Fluids A 5, 891 (1993)0899-821310.1063/1.858635] in the stably stratified Boussinesq framework, with an external Coriolis force (with rate Ω_{p}) altering the base flow through the distortion of the circular streamlines of the unperturbed axially stratified rotating columns (with constant vorticity 2Ω.) It is shown that the inviscid part of the modified velocity flow (0,Ωr,-2ɛΩrsinφ) and buoyancy with gradient N^{2}(-2ɛcosφ,2ɛsinφ,1) are an exact solution of Boussinesq-Euler equations. Here (r,φ,z) is a cylindrical coordinate system, with ɛ=Ω_{p}/Ω being the Poincaré number and N the Brunt-Väisälä frequency. The base flow is transformed into a Cartesian coordinate system, and the stability of a superimposed perturbation is studied in terms of Fourier (or Kelvin) modes. The resulting Floquet system for the Fourier modes has three parameters: ɛ, N=N/Ω, and μ, which is the angle between the wave vector k and the solid-body rotation axis in the limit ɛ=0. In this limit, there are inertia-gravity waves propagating with frequency ±ω and the resonant cases are those for which 2ω=nΩ, n being an integer. We perform an asymptotic analysis to leading order in ɛ and characterize the destabilizing resonant case of order n=1 (i.e., the subharmonic instability) which exists and for 0≤N<Ω/2. In this range, the subharmonic instability remains the strongest with a maximal growth rate σ_{m}=[ɛ(5sqrt[15]/8)sqrt[1-4N^{2}]/(4-N^{2})]. Stable stratification acts in such a way as to make the subharmonic instability less efficient, so as it disappears for N≥0.5Ω. The destabilizing resonant cases of order n=2,3,4,5 are investigated in detail by numerical computations. The effect of viscosity on these instabilities is briefly addressed assuming the diffusive coefficients (kinematic and thermal) are equal. Likewise, we briefly investigate the case where N^{2}<0 and show that the instability associated to the mode with k_{3}=0 is the strongest.</abstract><cop>United States</cop><pub>American Physical Society (APS)</pub><pmid>35428057</pmid><doi>10.1103/PhysRevE.105.035107</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-6825-5195</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Condensed Matter Fluid mechanics Mechanics Mesoscopic Systems and Quantum Hall Effect Physics |
| title | Destabilizing resonances of precessing inertia-gravity waves |
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